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Boron Nitride Powder
Minimum Order Quantity: 1 Kg
Product Brochure
Packaging Size | 25 kg |
Grade Standard | Industrial Grade |
Physical Form | Powder |
Purity | 99.99 |
Usage/Application | INDUSTRIAL |
Country of Origin | Made in India |
### 1. Container Material:- **Chemical Compatibility**: Use containers made from materials such as high-density polyethylene (HDPE), polypropylene (PP), or metal that are compatible with boron nitride to prevent reactions or contamination.- **Moisture Barrier**: Ensure the packaging material provides adequate protection against moisture to prevent absorption, which can affect the properties of BN powder.
### 2. Sealing and Closure:- **Secure Closure**: Containers should have tightly sealed lids or caps to prevent moisture ingress and contamination.- **Seal Integrity**: Ensure the packaging has a reliable seal to maintain the powder's properties and prevent leakage during handling and transport.
### 3. Labeling and Identification:- **Product Information**: Labels on the packaging should include essential information such as product name (boron nitride powder), chemical composition, purity level, particle size, manufacturer details, handling instructions, and safety precautions.- **Batch Number**: Each package should be clearly labeled with a batch number for traceability and quality control purposes.
### 4. Protection from Environmental Factors:- **Moisture Protection**: Include desiccants or moisture-absorbing materials inside the packaging to maintain the dryness of BN powder.- **UV Protection**: Use packaging that provides UV protection if BN powder is sensitive to light degradation.
### 5. Handling and Transport Considerations:- **Robust Packaging**: Ensure packaging is sturdy and durable to withstand handling and transportation without damage to the containers or the BN powder inside.- **Compliance**: Packaging must comply with relevant transportation regulations regarding hazardous materials, if applicable.
### 6. Packaging Sizes and Forms:- **Variety of Sizes**: BN powder may be packaged in various sizes, from small containers for laboratory use to larger drums or bags for industrial applications.- **Form**: BN powder can be packaged in bulk powder form or as dispersed nanosheets, depending on the application and customer requirements.
### 7. Quality Assurance:- **Quality Control**: Packaging should be part of a comprehensive quality assurance process to ensure that the BN powder meets specified standards and retains its properties throughout storage and use.
### Environmental Considerations:- Ensure that packaging materials are recyclable or reusable where possible to minimize environmental impact.
By addressing these considerations, packaging for boron nitride powder can effectively protect its unique properties and ensure its suitability for various industrial and research applications. Properly packaged BN powder maintains its integrity, quality, and performance, meeting the needs of industries ranging from electronics and aerospace to biomedical and automotive sectors.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging for boron nitride powder (BN powder) is crucial to ensure its quality, safety, and usability throughout its shelf life and transportation. Here are the key considerations for packaging BN powder: ### 1. Container Material: - **Chemical Compatibility**: Use containers made from materials such as high-density polyethylene (HDPE), polypropylene (PP), or metal that are compatible with boron nitride to prevent reactions or contamination. - **Moisture Barrier**: Ensure the packaging material provides adequate protection against moisture to prevent absorption, which can affect the properties of BN powder. ### 2. Sealing and Closure: - **Secure Closure**: Containers should have tightly sealed lids or caps to prevent moisture ingress and contamination. - **Seal Integrity**: Ensure the packaging has a reliable seal to maintain the powder's properties and prevent leakage during handling and transport. ### 3. Labeling and Identification: - **Product Information**: Labels on the packaging should include essential information such as product name (boron nitride powder), chemical composition, purity level, particle size, manufacturer details, handling instructions, and safety precautions. - **Batch Number**: Each package should be clearly labeled with a batch number for traceability and quality control purposes. ### 4. Protection from Environmental Factors: - **Moisture Protection**: Include desiccants or moisture-absorbing materials inside the packaging to maintain the dryness of BN powder. - **UV Protection**: Use packaging that provides UV protection if BN powder is sensitive to light degradation. ### 5. Handling and Transport Considerations: - **Robust Packaging**: Ensure packaging is sturdy and durable to withstand handling and transportation without damage to the containers or the BN powder inside. - **Compliance**: Packaging must comply with relevant transportation regulations regarding hazardous materials, if applicable. ### 6. Packaging Sizes and Forms: -
Silicon Carbide Powder
Product Brochure
Brand | Parshwamani Metals |
Purity | 99% |
Usage/Application | Industrial |
Packaging Size | 25 kg |
Color | Grey |
Form | Powder |
Packaging Type | Bag |
Grade Standard | Technical Grade |
Material | Silicon Carbide |
Silicon Carbide Powder finds application in various industries like electronic industry, automobile industry, steel industry and many more.
Features:
- Fine quality
- Reasonable price
- Abrasive
Specifications:
- Application: steel making
- Shape: lump/powder/ball/granules
- Dimensions: 0-1mm 0-10mm 0-100mm
- Chemical Composition: SiC, H2O, S, P.Fe2O3.F.C
- Color: black/green
- Price: competitive
- Factory or trade: factory
Zinc Metal Powder
Minimum Order Quantity: 1 Kg
Product Brochure
Packaging Size | 25 kg |
Grade Standard | Industrial Grade |
Usage/Application | Industrial |
Country of Origin | Made in India |
Zinc metal powder is a finely divided form of zinc, typically produced through processes such as atomization, electrolysis, or chemical reduction. Here's a detailed look at the information related to zinc metal powder:
Production Methods:- Atomization: Molten zinc is sprayed into a fine mist using high-pressure gas, which solidifies into powder as it cools.
- Electrolysis: Zinc can be deposited in powdered form during the electrolytic refining of zinc from zinc sulfate or chloride solutions.
- Chemical Reduction: Zinc oxide or other zinc compounds can be reduced with carbon or other reducing agents to obtain zinc metal in powder form.
- Appearance: Greyish-white powder.
- Particle Size: Can range from a few micrometers to larger particles, depending on the application requirements.
- Purity: Typically high purity, with zinc content often exceeding 99%.
- Density: The density of zinc metal powder is approximately 7.14 g/cm³.
- Melting Point: Zinc melts at 419.5°C (787.1°F).
- Boiling Point: Zinc boils at 907°C (1665°F).
- Reactivity: Zinc powder is reactive, particularly in acidic environments where it can undergo oxidation-reduction reactions.
- Electrical Conductivity: Zinc exhibits moderate electrical conductivity, making it suitable for certain electrical applications.
- Galvanizing: Zinc powder is widely used in the galvanizing industry to protect steel and iron from corrosion by forming a zinc coating.
- Chemical Industry: It serves as a reducing agent, catalyst, or reactant in various chemical processes.
- Battery Manufacturing: Zinc powder is used in alkaline batteries, where it serves as the anode material.
- Metallic Pigments: Used in paints and coatings to provide decorative and protective properties.
- Powder Metallurgy: Zinc powder is used to produce sintered components in industries such as automotive and electronics.
- Electronics: It is used in conductive pastes for printed circuit boards (PCBs) and as a component in electronic devices.
- Fireworks: Zinc powder can produce sparks when ignited, making it suitable for fireworks and pyrotechnics.
- Due to its fine particle size and reactivity, proper handling procedures are essential to avoid inhalation or skin contact.
- Safety measures include using appropriate personal protective equipment (PPE) and ensuring adequate ventilation in handling areas.
- Zinc metal powder should be handled and disposed of responsibly to minimize environmental impact.
- Recycling options should be considered to conserve resources and reduce waste.
Zinc metal powder's versatility and unique properties make it indispensable in various industrial applications, contributing to infrastructure protection, chemical synthesis, and technological advancements.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging for zinc metal powder is crucial to ensure its safety, integrity, and usability throughout its transportation, storage, and handling. Here are key considerations and typical practices for packaging zinc metal powder: ### Packaging Considerations: 1. **Material Compatibility**: The packaging material should be compatible with zinc metal powder to prevent contamination or reaction. Common materials include: - **Steel Drums**: Typically lined with a suitable material to prevent corrosion or reaction with zinc. - **Fiber Drums**: Sometimes used for smaller quantities, with inner liners to protect against moisture. - **Flexible Intermediate Bulk Containers (FIBCs)**: Used for bulk quantities, lined to prevent leakage and maintain powder integrity. - **Polyethylene Bags**: Used for smaller quantities, ensuring they are clean and free from contaminants. 2. **Moisture Protection**: Zinc metal powder is susceptible to oxidation in moist environments, so packaging should include measures to prevent moisture ingress. This can include moisture barriers, desiccants, or sealing methods that maintain a dry environment. 3. **Particle Containment**: Zinc metal powder can generate dust, which poses inhalation hazards. Packaging should be designed to minimize dust generation during handling and transportation. This might involve sealed containers or bags with effective closures. 4. **Labeling and Identification**: Proper labeling is essential for safe handling and identification of the contents. Labels should include information such as zinc metal powder, handling precautions, purity level, batch number, and supplier details. 5. **Transportation Safety**: Packaging should comply with relevant transportation regulations and guidelines to ensure safe transport of hazardous materials if applicable. This includes proper labeling, documentation, and securing packages to prevent shifting or damage. 6. **Environmental Considerations**: Sustainable packaging pract
Tellurium Metal Ingot
Product Brochure
Minimum Order Quantity | 1 Kg |
Grade | 99.99 |
Usage/Application | INDUSTRIAL |
shape | SQUARE |
Material | TELLURIUM METAL |
Usage | INDUSTRIAL |
Manufacturer | PARSHWAMANI METALS |
Country of Origin | Made in India |
### General Information- **Element Category**: Metalloid- **Appearance**: Silvery-white, brittle- **Standard Atomic Weight**: 127.60 g/mol- **Density**: 6.24 g/cm³ at 20°C- **Melting Point**: 449.51°C (841.12°F)- **Boiling Point**: 988°C (1810°F)- **Crystal Structure**: Hexagonal
### Physical Properties- **Electrical Conductivity**: Semi-conductive- **Thermal Conductivity**: 2.35 W/(m·K) at 300 K- **Hardness**: 2.25 on Mohs scale
### Chemical Properties- **Oxidation States**: -2, +2, +4, +6 (commonly forms compounds in the +4 state)- **Electronegativity**: 2.1 (Pauling scale)- **Reactivity**: Reacts with halogens and acids, but not with water or oxygen at room temperature.
### Applications- **Alloys**: Used to improve the machinability of copper and stainless steel.- **Electronics**: Utilized in semiconductor materials and in the manufacture of thermoelectric devices.- **Solar Cells**: Employed in thin-film solar cells, often in combination with cadmium and other materials.- **Optics**: Used in the production of specialized glasses.- **Chemical Catalysts**: Acts as a catalyst in the refining of petroleum products.
### Health and Safety- **Toxicity**: Tellurium and its compounds are considered toxic. Exposure can cause tellurium breath (garlic-like odor) and other health effects.- **Handling**: Requires proper safety measures including ventilation and protective equipment to prevent inhalation or ingestion.
### Occurrence and Production- **Natural Occurrence**: Rare in the Earth's crust, with an abundance of about 1 µg/kg.- **Sources**: Found in minerals like tellurite and calaverite. Often obtained as a byproduct of copper and lead refining.- **Extraction**: Typically extracted through electrolytic refining of copper.
### Interesting Facts- **Discovery**: Discovered in 1782 by Franz-Joseph Müller von Reichenstein.- **Name Origin**: Named after the Latin word "tellus," meaning "earth."- **Uses in History**: Historically used in metallurgy to improve the properties of metals.
Tellurium’s unique properties make it valuable in various advanced technological applications, particularly in the fields of electronics and renewable energy.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging tellurium, especially in its pure form or as part of compounds and alloys, requires careful consideration due to its physical and chemical properties. Here are some key aspects of tellurium packaging: ### 1. **Forms of Tellurium for Packaging** - **Powder**: Fine tellurium powder is commonly used in various industrial applications. - **Granules**: Granulated tellurium is used for more controlled and easier handling. - **Ingots/Bars**: Solid tellurium in the form of ingots or bars for bulk industrial uses. - **Pellets**: Small, compact pellets for specific uses in electronics and semiconductors. ### 2. **Packaging Materials** - **Inert Containers**: Tellurium should be stored in containers made of materials that do not react with it, such as glass or certain plastics. - **Vacuum-Sealed Bags**: To prevent oxidation and contamination, tellurium is often packaged in vacuum-sealed bags. - **Anti-Static Bags**: For tellurium powder and fine particles, anti-static bags are used to prevent static electricity buildup. ### 3. **Storage and Transportation** - **Sealed Containers**: Ensures that tellurium is protected from moisture and air, which can cause oxidation and degradation. - **Labeling**: Containers should be clearly labeled with the contents, hazard warnings, and handling instructions. - **Secondary Containment**: In some cases, tellurium is placed within a secondary container to provide extra protection against leaks and spills. ### 4. **Handling Precautions** - **Protective Gear**: Personnel handling tellurium should use appropriate protective equipment, including gloves, goggles, and masks, to prevent inhalation or contact with the skin. - **Ventilation**: Workspaces where tellurium is handled should be well-ventilated to avoid the buildup of any potentially harmful fumes. - **Emergency Procedures**: Clear instructions should be provided in case of spills or exposure. ### 5. **Regulatory Compliance** - **Hazardous Material Regulations**: Packaging
Tellurium Metal Powder
Product Brochure
Minimum Order Quantity | 1 Kg |
Packaging Size | 1 kg |
Grade Standard | Industrial Grade |
Packaging Type | Bottle |
Color | Gray |
Material | TELLURIUM METAL POWDER |
Usage/Application | Industrial |
Country of Origin | Made in India |
### Properties of Tellurium Metal Powder
1. **Appearance**: Grayish-black, metallic powder.2. **Particle Size**: Can vary depending on the manufacturing process, typically ranging from a few micrometers to several hundred micrometers.3. **Density**: Similar to bulk tellurium, around 6.24 g/cm³.4. **Reactivity**: More reactive than bulk tellurium due to the increased surface area of the powder.
### Applications of Tellurium Metal Powder
1. **Electronics and Semiconductors**: Used in the production of thermoelectric materials and semiconductor devices.2. **Solar Cells**: Incorporated in thin-film photovoltaic cells, particularly cadmium telluride (CdTe) solar panels.3. **Metallurgy**: Added to alloys to improve machinability and mechanical properties.4. **Chemical Industry**: Used as a catalyst and in the synthesis of tellurium compounds.5. **Optics**: Employed in the production of special glass and optical fibers.
### Handling and Safety
1. **Protective Equipment**: - **Gloves**: To prevent skin contact. - **Masks/Respirators**: To avoid inhalation of fine particles. - **Safety Goggles**: To protect eyes from dust.2. **Ventilation**: Work in a well-ventilated area or under a fume hood to prevent accumulation of dust.3. **Storage**: - **Sealed Containers**: Store in airtight containers to prevent oxidation and moisture absorption. - **Labeling**: Clearly label containers with content information and hazard warnings.4. **Spill Response**: In case of a spill, avoid generating dust. Use a vacuum or wet method to clean up, and dispose of waste according to local regulations.
### Packaging of Tellurium Metal Powder
1. **Primary Packaging**: - **Anti-Static Bags**: Prevent static buildup which can cause the powder to become airborne. - **Vacuum-Sealed Bags**: Minimize oxidation and contamination.2. **Secondary Packaging**: - **Rigid Containers**: Use plastic or metal containers to protect the sealed bags during transport. - **Labeling**: Include hazard symbols, handling instructions, and material safety data sheets (MSDS).3. **Transport**: - **Compliance with Regulations**: Follow guidelines for shipping hazardous materials, such as those from the International Air Transport Association (IATA) and the U.S. Department of Transportation (DOT).
### Environmental and Regulatory Considerations
1. **Disposal**: Dispose of tellurium powder waste according to local environmental regulations. It should not be released into the environment due to its potential toxicity.2. **Regulatory Compliance**: Ensure all packaging, labeling, and transportation comply with relevant regulations such as REACH in the EU and OSHA in the U.S.
### SummaryTellurium metal powder is a valuable material with significant applications in electronics, metallurgy, and renewable energy. Due to its finely divided nature, it requires careful handling, appropriate protective measures, and compliance with safety regulations to ensure safe use and environmental protection.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging tellurium metal powder requires careful consideration due to its properties and potential hazards. Here are important aspects to consider when packaging tellurium metal powder: ### 1. Container Selection - **Material Compatibility**: Use containers made of materials that do not react with tellurium, such as glass, certain plastics (e.g., polyethylene), or metal (e.g., stainless steel). - **Sealability**: Containers should be sealable to prevent exposure to air and moisture, which can lead to oxidation of tellurium. - **Strength**: Ensure containers are strong enough to withstand the weight and nature of the powder to prevent leakage or breakage. ### 2. Packaging Methods - **Anti-Static Bags**: Use anti-static bags to prevent static electricity buildup, which can cause tellurium powder to disperse and potentially ignite. - **Vacuum-Sealed Bags**: Vacuum-seal bags to minimize exposure to air and moisture, reducing the risk of oxidation. - **Secondary Containment**: Consider using secondary containment to provide an additional layer of protection in case of leaks or spills. ### 3. Labeling and Documentation - **Clear Labeling**: Clearly label containers with information such as "Tellurium Metal Powder," hazard symbols (e.g., skull and crossbones for toxicity), handling instructions, and emergency contact information. - **Material Safety Data Sheets (MSDS)**: Include MSDS documents that provide detailed information on the hazards, safe handling procedures, and emergency response measures. ### 4. Handling and Storage - **Safety Precautions**: Ensure personnel handling tellurium powder wear appropriate personal protective equipment (PPE), including gloves, goggles, and respiratory protection, to prevent inhalation or skin contact. - **Ventilation**: Store and handle tellurium powder in a well-ventilated area or under a fume hood to minimize exposure to airborne particles. - **Separation**: Store tellurium powder away from incompatible materials and sourc
Magnesium Alloy Powder
Color | Black |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Packaging Type | Bag |
Material | Magnesium Alloy |
Physical State | Powder |
Purity | 99% |
Packaging Size | 25 kg |
We are the leading manufacturers and suppliers of high grade Magnesium ALLOY Powder to our esteemed clients. This powder is manufactured using premium grade raw material that is being sourced from known and reliabledealers. It is widely used in different applications and is highly appreciated for its great results. In addition to this, it is presented at the best rates in the industry.
Advantages:
- It can be availed in normal rates
- Perfectly grounded
Additional Information:
- Pay Mode Terms: T/T (Bank Transfer),Other
- Port of Dispatch: COURIER MODE
- Delivery Time: 4 DAYS
Cerium Oxide Powder
Brand | Parshwamani Metals |
Purity | 99 % |
Usage/Application | Industrial |
Usage | Commerical, Domestic, Laboratory, Industrial |
Packaging Size | 25 kg |
Grade Standard | Technical Grade |
Packaging Type | Bag |
Physical Form | Powder |
Material | Cerium Oxide |
Technical Specifications:
- Cerium Oxide 99.95%
- Chemical formula: CeO2
- CAS No: 1306-38-3
- Molecular weight: 172.12
- Appearance: whitish yellow
- Pack size: 1,5,25 kgs
- Ceric Ammonium Nitrate 99.95%
- Chemical formula: Ce(NH4)2(NO3)6
- CAS No: 16774-21-3
- Molecular weight: 548.23
- Appearance: Orange yellow
- Pack size: 1,5,25 kgs
- Ceric Ammonium Sulphate 99.95%
- Chemical formula: Ce(NH4)2(SO4)
- CAS No: 10378-47-9
- Molecular weight: 596.52
- Appearance: WHITE, GREEN & PINK
- Pack size: 1,5,25 kgs
Additional Information:
- Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A
- Port of Dispatch: MUMBAI
- Production Capacity: 1000 KGS
- Delivery Time: 4 DAYS
- Packaging Details: MINIMUM 1 KGS
Beryllium Copper Powder
Usage/Application | Industrial |
Brand | Parshwamani Metals |
Form | Powder |
Packaging Size | 25 kg |
Purity | 99 % |
Packaging Type | Bag |
- Dimensions: -80/-250/-325mesh
- Purity: Cu: 99.8% min
- Alloy Or Not: Non-Alloy
- Place of Origin: CN;SIC
Nickel Alloy Powder
Brand | Parshwamani Metals |
Material | Nickel Alloy |
Packaging Size | 25 kg |
Purity | 99% |
Lead Ingot | 99.994% |
Trademark | Nieshang |
Certification | Ce, ISO, RoHS |
Packaging Type | Bag |
Specifications:
- Price: Factory Price
- Certification: Ce, ISO, RoHS
- Transport Package: 5kg/Bag
- Application: Ceramic, Metallurgy, Paint, Fireworks, Pigment
- Sample: Free
- Lead Ingot: 99.994%
- Trademark: Nieshang
- Specification: 99.99%
Niobium Metal Powder
Color | Black |
Usage/Application | Industrial |
Material | Niobium Metal |
Brand | Parshwamani Metals |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99% |
Packaging Type | Bag |
Specifications:
- Dimensions: Nano grade
- Particle size: 40-60nm, 60-80nm, 80-100nm
- Material: Niobium
- Particle size: 40-60nm, 60-80nm, 80-100nm
Gun Metal Powder
Color | Gray |
Usage/Application | Industrial |
Material | Gun Metal |
Brand | Parshwamani Metals |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99% |
Packaging Type | Bag |
Specifications:
- Customized: Non-Customized
- Trademark: YX
- Origin: Zhejiang Ningbo
- Condition: New
- Material: Plastic
- Specification: Each kind of specification
Platinum Powder
Color | Gray |
Usage/Application | Industrial |
Material | Platinum |
Brand | Parshwamani Metals |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99% |
Packaging Type | Bag |
Specification:
- Platinum content: 99.95% up
- Appearance: Black powder
- Liquid density atm.p.: 19.77 g·cm3
- Density(near r.t.): 21.45 g·cm3
Palladium Silver Powders
Color | Gray |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Bulk Density | 0.35 g/cm3 |
APS | 20-40nm |
Purity | More then 99% |
True Density | 10.5 g/cm3 |
Weight | 21.78 Kg |
Other Details:
CAS |
7440-22-4 & 7440-05-3 |
Purity |
>99% |
APS |
20-40nm |
Weight |
21.78 |
Substance |
>99% |
Chloride Content |
0.09% |
Morphology |
Sperical |
Bulk Density |
0.35 g/cm3 |
True Density |
10.5 g/cm3 |
Typical Chemical Analysis:
Palladium/ Silver Nanoparticles Chemical Analysis |
PPM |
Iron (Fe) |
3 |
Cupper (Cu) |
10 |
Lead (Pb) |
2 |
Antimony (Sb) |
2 |
Bismuth (Bi) |
2 |
Features:
- Formulated under hygienic conditions
- Quality tested
- Colour in grey Browen Powder
- High purity
Nickel Chromium Powder
Brand | Parshwamani Metals |
Material | Nickel Chromium |
Form | Powder |
Color | Black |
Grade | Technical |
Usage | Laboratory |
Packaging Type | Bag |
Packaging Size | 25 kg |
- Cold spraying
- Hot spraying
Technical Specifications:
Mesh(BSS) | Microns | Percentage |
-350 | <45 | 100 |
Physical | ||
-350 # | ||
Apparent Density (g/cc) | 4.12 | |
Flow Rate (secs/50g) | 20-22 | |
Chemical | ||
Element | Wt% | |
Chromium | 45 | |
Silicon | 0.5 | |
Iron | 0.35 | |
Manganese | 0.03 | |
Carbon | 0.08 | |
Oxygen | 0.15 max | |
Others | 1 max | |
Nickel | Balance |
Aluminium Powder
Grade Standard | Industrial Grade |
Whiteness | 93%-96% |
Purity | 99.6% |
Brand | Parshwamani Metals |
Material | Aluminum |
Packaging Type | Bag |
Packaging Size | 25 kg |
Form | Powder |
Cobalt Powder
Packaging Size | 25 kg |
Color | Black |
Brand | Parshwamani Metals |
Purity | 99 % |
Packaging Type | Bag |
Material | Cobalt |
Grade | Technical |
Form | Powder |
Features:
- Longer shelf life
- Moisture proof
- Hygienically processed
Principal Applications:
- Diamond tools
- Cemented carbide tools
- Hard metals
- Glass industries
- Diamonds polishing scaife
Packing:
- 1 kg. Packing available in cardboard box with inner LDPE bags sealed in inert atmosphere
- 25 kg. & 50kg. Packing in metal drum with inner LDPE bags sealed in inert atmosphere
Applications:
- Buttons for DTH bits
- Drill steel inserts (DSI) for drill rods.
- Wire drawing nibs
- Bar and tube drawing pellets
- Wear parts, special tips, blanks etc., as per requirement / drawing
- Cold heading pellets
Copper Powder
Usage/Application | Commercial |
Color | Orange |
Brand | Parshwamani Metals |
Material | Copper |
Packaging Size | 25 kg |
Purity | 99 % |
Packaging Type | Bag |
Form | Powder |
- Dimensions: 100/ 200/ 325mesh
- Material: Copper
- Chemical Composition: Te
- Shape: Powder
- Color: Yellow
Below listed are some of the major features of our range:
- Dimensional accuracy
- Corrosion-resistance
- High usability
Gallium Powder
Color | White |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Material | Gallium |
Packaging Size | 25 kg |
Purity | 99% |
Density | 6.25 g/mL at 25 Degree C(lit.) |
Form | Powder |
Packaging Type | Bag |
Safety Informations:
- Risk Statements 34
- Safety Statements 26-36/37/39-45
- RIDADR UN 2803 8/PG 3
- Density, 6.25 g/mL at 25 °C(lit.)
- WGK Germany 3
Hafnium Powder
Color | Green |
Usage/Application | Industrial |
Material | Hafnium |
Brand | Parshwamani Metals |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99% |
Packaging Type | Bag |
- Available in standard mesh sizes ranging from 80 - 325 mesh x down.
- Dimensions: 400 mesh 100% pass
- Application: nuclear industry, rocket propellant
- Chemical Composition: Hf ≥ 99.5%
Indium Powder
Color | White |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Material | Indium |
Purity | 99.99% |
Packaging Size | 25 kg |
Packaging Type | Bag |
Form | Powder |
- Dimensions: 99.99% purity
- Shape: Powder
- Chemical Composition: Hf ≥ 99.5%
Iron Powder
Color | Black |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Material | Iron |
Packaging Size | 25 kg |
Purity | 99 % |
Form | Powder |
Packaging Type | Bag |
Dimensions | 100/ 200/ 325 mesh |
Specification:
- Dimensions: 100/ 200/ 325mesh
- Material: Iron
- Chemical Composition: Te
- Shape: Powder
- Color: Black
Applications:
- As reducing agent for high purity chemical and pharmaceutical products and Indigo Dye Manufacturing
- As a magnetic additive in paint
- Diamond cutting tools
- Electrolytic Iron Flakes are used in various metallurgical applications, for example as high purity melting stock and alloying additions
Lead Powder
Usage/Application | Industrial |
Brand | Parshwamani Metals |
Packaging Type | Bag |
Packaging Size | 25 kg |
Form | Powder |
Color | Black |
Lead Powder chemical offered comes with synonyms of Lead Metal Powder, CAS No of 7439-92-1, molecular formula of Pb and molecular weight of 207.20. Made available in powder form, it has minimum assay of 99.0%. Some of its properties include used in industry sectors like Oil & Gas, for making protective clothing, in anti-friction products, in corrosion resistant paints, in production of fine crystal & flint glass.
Specifications:
Lead Powder Synonyms : Lead Metal Powder |
|||||
CAS No | 7439-92-1 | ||||
Molecular Formula | Pb | ||||
Molecular Weight | 207.2 | ||||
Description | Powder | ||||
Grade | Technical | ||||
Assay | 99.0% MIN |
Bronze Powder
Packaging Size | 25 kg |
Packaging Type | Bag |
Form | Powder |
Color | Brown |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Dimensions | 100/ 200/ 325mesh |
Tin | 15% -with 325 mesh |
Copper | 85 % |
Material | Bronze |
Specification:
- Dimensions: 100/ 200/ 325mesh
- Material: Bronze
- Application: For ceramic colorant, Telllrium copper, alloys ,casting coating
- Chemical Composition: Te
- Shape: Powder
- Color: Gray
Mentioned are the Features:
- High durability
- Reliable performance
- High efficiency
Vanadium Powder
Color | Gray |
Usage/Application | Industrial |
Material | Vanadium |
Brand | Parshwamani Metals |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99% |
Packaging Type | Bag |
Specifications:
- Grade: FeV80
- Size:-100 Mesh
- Material: Ferro vanadium
- Shape: Powder
- Dimensions: -100 MESH
Chromium Powder
Brand | Parshwamani Metals |
Trademark | Nieshang |
Grade | Technical |
Material | Chromium |
Packaging Type | Bag |
Packaging Size | 5 kg |
Purity | More than 99.99% |
Form | Powder |
Specifications:
- Powder: Powder
- Sample: Free
- Nickel Powder: 99.99%
- Trademark: Nieshang
- Specification: 99.99%
- HS Code: 7604109000
- Purity: >99.99%
- Type: Powder
- Factory: OEM
- Price: Factory Price
- Certification: Ce, ISO, RoHS
- Transport Package: 5kg/Bag
Nitinol Powder
Minimum Order Quantity: 1 Kg
Brand | Parshwamani Metals |
Color | Grey |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99% |
Usage | Plating Pupose, For Making Composite, Reserach Purpose & In Laboratory |
Material | Nitinol |
Packaging Type | Bag |
Grade | Technical |
It Comprises Of 50% Nickel & 50% Titanium.
It Used For Plating Pupose, For Making Composite, Reserach Purpose & In Laboratory.
Additional Information:
- Pay Mode Terms: T/T (Bank Transfer),NETT BANKING
- Delivery Time: 4 DAYS
- Packaging Details: 1 KILOGRAM
Platinum Powder
Color | Black |
Usage/Application | Industrial |
Material | Platinum |
Brand | Parshwamani Metals |
Packaging Size | 25 kg |
Physical State | Powder |
Purity | 99.99% |
Packaging Type | Bag |
Chemical Composition | Palladium metal |
Dimensons | 200 mesh |
- Dimensions: 200 mesh
- Material: Metal powder
- Materials: Monocrystal, polycrystal, target, panel, board, plate, shot, granule
- Chemical Composition: Palladium metal
- Shape: Gray metal powder, ingot
Mercury Liquid
Grade Standard | Technical Grade |
Usage | Laboratory |
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Physical Form | Liquid |
Vapor Pressure | 0.002 mm Hg + 25C |
Color | Sliver |
Features:
- High quality
- Effective functioning
- High performance
Specifications:
- Color: Sliver
- Type: Synthesis Material Intermediates
- Vapor Pressure: 0.002 mm Hg + 25C
- Appearance: Liquid
Silver Powder
Usage/Application | Commercial |
Brand | Parshwamani Metals |
Packaging Type | Bag |
Material | Silver |
Purity | 99% |
Packaging Size | 25 kg |
Composition | Mica Power |
Form | Powder |
- Particle Size: Mica Powder′s Size From Ten to Two Hundred Um
- Composition: Mica Power
- Color: Silver Mica Power
Ti3alc2 Powder
Product Brochure
Minimum Order Quantity | 1 Kg |
Packaging Size | 100 g |
Grade Standard | Industrial Grade |
Usage/Application | INDUSTRIAL |
Ti3AlC2 powder refers to a specific type of ceramic material known as a MAX phase compound. MAX phases are layered ternary carbides or nitrides characterized by their unique combination of properties, including good mechanical strength, high thermal and electrical conductivity, and thermal shock resistance. Here’s an overview of Ti3AlC2 powder:
Properties of Ti3AlC2 Powder-
Chemical Composition:
- Ti3AlC2 consists of layers of titanium (Ti), aluminum (Al), and carbon (C). The ratio of Ti:Alin Ti3AlC2 is approximately 3:1:2. It belongs to the family of MAX phases, where M denotes a transition metal (Ti), A denotes an element from groups 13 or 14 (Al), and X denotes carbon or nitrogen (C).
-
Physical Properties:
- Layered Structure: Ti3AlC2 has a laminated structure with alternating layers of Ti-Al and C. This structure contributes to its unique combination of properties, including mechanical strength and thermal stability.
- Density: The density of Ti3AlC2 powder varies depending on the synthesis method and processing conditions but typically falls in the range of 4.0-4.5 g/cm³.
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Mechanical Properties:
- High Hardness: Ti3AlC2 exhibits high hardness, making it suitable for wear-resistant applications.
- Good Thermal Shock Resistance: It has good thermal shock resistance, which means it can withstand rapid changes in temperature without cracking or failing.
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Electrical and Thermal Properties:
- Electrical Conductivity: Ti3AlC2 is a good electrical conductor due to its metallic layers.
- Thermal Conductivity: It also exhibits high thermal conductivity, which is beneficial for applications requiring efficient heat dissipation.
-
Chemical Stability:
- Ti3AlC2 is chemically stable in inert atmospheres and exhibits good resistance to oxidation and corrosion at high temperatures. However, it can react with certain aggressive chemicals under specific conditions.
Ti3AlC2 powder finds applications in various industries and technologies, including:
-
Coatings and Surface Treatments: Used as a protective coating to enhance the wear resistance and mechanical properties of tools, components, and surfaces.
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High-Temperature Materials: Employed in aerospace and automotive industries for components that require high-temperature stability, such as heat shields, turbine components, and exhaust systems.
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Electronic and Thermal Management: Used in electronic packaging and thermal management applications due to its high thermal conductivity and electrical conductivity.
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Structural Ceramics: Utilized in ceramic matrix composites (CMCs) for structural applications where high strength, toughness, and thermal stability are required.
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Energy Storage and Conversion: Investigated for use in energy storage devices (e.g., batteries, supercapacitors) and as electrode materials due to its electrical conductivity and structural stability.
Ti3AlC2 powder, belonging to the class of MAX phases, offers a unique combination of mechanical strength, thermal and electrical conductivity, and chemical stability. Its applications span across various industries, from aerospace and automotive to electronics and energy. As research continues to advance in materials science and engineering, Ti3AlC2 remains a promising material for high-performance applications that require robustness, durability, and resistance to extreme conditions.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging Ti3AlC2 powder is critical to ensure its integrity, prevent contamination, and maintain its properties during storage, transportation, and handling. Given the unique characteristics of Ti3AlC2 powder, here are the key considerations for packaging it effectively: ### 1. Container Selection - **Material Compatibility**: Choose containers made from materials that are chemically inert to Ti3AlC2, such as glass, certain plastics (e.g., polyethylene or polypropylene), or metal (e.g., stainless steel). Avoid containers made from reactive metals or materials that could react with Ti3AlC2 and compromise its purity. - **Sealability**: Ensure containers have secure closures that provide an airtight seal. This prevents exposure to moisture, air, and contaminants, which can degrade the quality and properties of Ti3AlC2 powder. - **Strength**: Select containers that are strong enough to withstand the weight of the powder and any handling during storage and transportation. This helps prevent leaks, breakage, and damage to the powder. ### 2. Packaging Methods - **Moisture Protection**: Ti3AlC2 powder is sensitive to moisture, which can affect its properties. Use moisture-proof packaging methods such as vacuum-sealed bags, moisture barrier liners, or desiccant packs inside the containers to maintain a dry environment. - **Anti-Static Measures**: Titanium-based powders can generate static electricity, leading to dust particle dispersion and potential hazards. Use anti-static packaging materials or incorporate anti-static agents to reduce static charge buildup and ensure safe handling. - **Labeling**: Clearly label containers with information such as "Ti3AlC2 Powder," handling instructions, hazard symbols (e.g., health hazard, fire hazard), and emergency contact information. Include details about the material's properties and any special handling precautions. ### 3. Handling and Storage - **Personal Protective Equipment (PPE)**: Provide appropriate PPE to personnel
Yttrium Oxide Powder
Minimum Order Quantity: 100 Gram
Product Brochure
Packaging Size | 100 g |
Grade Standard | Industrial Grade |
Usage/Application | INDUSTRIAL |
Purity | 99.99 |
Color | WHITE |
Country of Origin | Made in India |
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Yttrium oxide powder, often represented by the chemical formula Y2O3, is a compound of yttrium and oxygen. It is a white solid substance and is commonly used in various applications, including: 1. **Ceramics**: Yttrium oxide is used as a component in ceramic materials, especially those requiring high thermal stability and resistance to corrosion. 2. **Phosphors**: It is a crucial component in phosphors used for color television tubes and LEDs, where it helps emit various colors when excited by electrons. 3. **Optics**: Yttrium oxide is utilized in optical glasses and lenses due to its high refractive index and transparency in the infrared spectrum. 4. **Fuel cells**: It serves as an electrolyte material in solid oxide fuel cells due to its ionic conductivity at high temperatures. 5. **Catalysts**: Yttrium oxide can act as a catalyst in certain chemical reactions, particularly in the petroleum industry. 6. **Electronics**: It is used in the production of superconductors and as a dopant in semiconductor materials. Yttrium oxide powder is produced through various methods including precipitation from solutions, thermal decomposition of yttrium salts, or even vapor deposition techniques. Its properties make it valuable across a range of high-tech and industrial applications.
Molybdenum Disulfide Powder
Minimum Order Quantity: 1 Kg
Product Brochure
Packaging Size | 500 g |
Grade Standard | Industrial Grade |
Grade | INDUSTRIAL |
Usage/Application | INDUSTRIAL |
Country of Origin | Made in India |
### Mechanical Properties:1. **Hardness**: MoS2 has a Mohs hardness of about 1-1.5, which is relatively soft compared to metals but harder than most lubricants and plastics. 2. **Friction Coefficient**: It exhibits a low coefficient of friction, typically ranging from 0.03 to 0.15, which contributes to its excellent lubricating properties.
3. **Wear Resistance**: MoS2 offers good wear resistance, especially under high loads and in harsh environments, due to its layered structure and strong interlayer bonding.
4. **Load-Bearing Capacity**: It has a high load-bearing capacity, making it suitable for applications where surfaces experience significant mechanical stresses.
5. **Temperature Stability**: MoS2 maintains its lubricating effectiveness at high temperatures (up to 350°C in air and higher in inert atmospheres), which is crucial for applications in automotive engines, aerospace components, and industrial machinery.
### Tribological Performance:- **Boundary Lubrication**: MoS2 functions primarily as a boundary lubricant, forming a protective film between sliding surfaces to reduce friction and wear. - **Extreme Pressure Performance**: It can withstand extreme pressure conditions, offering protection against welding and seizure of moving parts.
### Surface Interaction:- MoS2 interacts with metal surfaces through van der Waals forces, where the sulfur atoms adhere to the metal surface, while the molybdenum layers slide over each other.
### Applications in Mechanical Engineering:- **Automotive**: Used in engine oils, greases, and transmission fluids to reduce friction and wear, improving fuel efficiency and extending component lifespan. - **Aerospace**: Applied in bearings, gears, and actuators to enhance performance and reliability under high-stress conditions.
- **Industrial Machinery**: Utilized in manufacturing equipment, hydraulic systems, and heavy machinery to reduce maintenance requirements and increase operational efficiency.
### Research and Development:- Ongoing research aims to optimize MoS2's mechanical properties, explore new synthesis methods, and develop tailored formulations for specific industrial applications.
In summary, MoS2's mechanical properties make it a valuable material for enhancing the performance and durability of mechanical systems, particularly where lubrication under high load and temperature conditions is critical. Its low friction coefficient, high load-bearing capacity, and temperature stability contribute to its widespread use across various industries.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging for molybdenum disulfide (MoS2) powder typically takes into account several factors to ensure the product's quality and usability are maintained. Here are key considerations for packaging MoS2 powder: ### 1. **Container Material:** - **High-Quality Containers**: MoS2 powder is often packaged in containers made from materials such as high-density polyethylene (HDPE), polypropylene (PP), or metal containers to prevent moisture absorption and maintain product integrity. - **Chemical Compatibility**: The container material should be chemically compatible with MoS2 to avoid any reactions that could degrade the powder. ### 2. **Sealing and Closure:** - **Secure Closure**: Containers are typically equipped with tightly sealed lids or caps to prevent moisture ingress and contamination. - **Seal Integrity**: Ensure that the packaging has a reliable seal to maintain the powder's properties during storage and transportation. ### 3. **Protection from Environmental Factors:** - **Moisture Barrier**: Moisture is a critical factor that can affect the lubricating properties of MoS2. Packaging should include moisture-resistant barriers such as inner liners or desiccants to absorb any moisture that could compromise the powder. - **UV Protection**: UV-resistant packaging may be used to protect MoS2 from degradation due to exposure to light. ### 4. **Labeling and Identification:** - **Product Information**: Labels on the packaging should include essential information such as product name, chemical composition (MoS2), particle size, purity level, manufacturer details, handling instructions, and safety precautions. - **Batch Number**: Each package should be identified with a batch number for traceability and quality control purposes. ### 5. **Handling and Transport Considerations:** - **Sturdy Packaging**: Ensure packaging is robust enough to withstand handling and transport without damage to the containers or the MoS2 powder inside. - **Regulatory Compliance**: Packaging
Tungsten Oxide Powder
Minimum Order Quantity: 1 Kg
Product Brochure
Packaging Size | 500 g |
Grain size | ALL MESH SIZE AVAILABLE |
Color | LIGHT YELLOW |
Purity | 99.99% |
Type | POWDER |
Manufacturer | PARSHWAMANI METALS |
Product Name | TUNGSTEN OXIDE POWDER |
Country of Origin | Made in India |
Tungsten oxide powder, also known as tungsten trioxide (WO3), is a versatile material with various industrial applications. Here’s an overview of tungsten oxide powder, including its properties and applications:
Properties of Tungsten Oxide Powder:-
Chemical Composition:
- Tungsten oxide powder primarily consists of tungsten and oxygen atoms in the ratio WO3.
-
Physical Properties:
- Color: Tungsten oxide powder can range from yellow to pale blue, depending on its oxidation state and particle size.
- Particle Size: The particle size can vary widely depending on production methods and application requirements.
- Density: Tungsten oxide has a density of approximately 7.16 g/cm³.
- Melting Point: The melting point of tungsten oxide is around 1473°C (2683°F).
-
Chemical Properties:
- Oxidation States: Tungsten oxide can exist in several oxidation states, primarily WO3 (tungsten trioxide) and WO2 (tungsten dioxide). These different states influence its properties and applications.
- Reactivity: Tungsten oxide exhibits varying degrees of reactivity depending on its form and environment.
-
Optical Properties:
- Optical Transmittance: Tungsten oxide can be transparent in the near-infrared region and has semiconducting properties.
-
Applications:
- Electrochromic Devices: Tungsten oxide is used in electrochromic materials, which can change color reversibly in response to an electric current. These materials are used in smart windows, displays, and mirrors.
- Catalysts: It serves as a catalyst in various chemical reactions, including in the petroleum industry for sulfur removal processes.
- Gas Sensors: Tungsten oxide powder is employed in gas sensors for detecting gases such as hydrogen and nitrogen oxides due to its sensitivity to these gases.
- Photocatalysts: It is used as a photocatalyst in environmental applications, such as water splitting for hydrogen production and pollutant degradation.
- Thermal Insulation: Tungsten oxide is utilized in thermal insulating materials and coatings due to its high melting point and low thermal conductivity.
- Medical Imaging: In some specialized applications, tungsten oxide is used in contrast agents for medical imaging due to its X-ray absorption properties.
-
Safety and Handling:
- Tungsten oxide powder should be handled with care to avoid inhalation of dust particles.
- Proper personal protective equipment (PPE) should be worn during handling and processing to minimize exposure risks.
Tungsten oxide powder is a versatile material with unique optical, electrical, and chemical properties that find applications in a wide range of industries. Its ability to change color under electrical stimulus, coupled with its catalytic and sensor capabilities, makes it indispensable in advanced technologies such as smart windows, gas sensors, and catalysts for environmental and industrial processes.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: RREADY STOCK
- Packaging Details: Packaging of tungsten oxide powder is crucial to ensure its safe handling, transportation, and storage, considering its properties and potential applications. Here are key considerations and typical practices for packaging tungsten oxide powder: ### Packaging Considerations: 1. **Material Compatibility**: - **Container Material**: Tungsten oxide powder is typically packaged in containers made of materials such as high-density polyethylene (HDPE), polypropylene (PP), or metal drums. These materials are compatible with tungsten oxide and help prevent contamination or reaction. 2. **Moisture Protection**: - Tungsten oxide powder should be protected from moisture to prevent oxidation or changes in properties. Packaging should include moisture-resistant liners or desiccants to maintain product integrity during storage and transportation. 3. **Particle Containment**: - Tungsten oxide powder can generate fine dust particles, which pose inhalation risks and can affect handling and safety. Packaging should be designed to minimize dust generation and leakage, using sealed containers or bags with effective closures. 4. **Labeling and Identification**: - Proper labeling is essential for safe handling and identification of tungsten oxide powder. Labels should include information such as product name, chemical composition (e.g., WO3), handling precautions, purity level, batch number, and supplier details. 5. **Transportation Safety**: - Packaging should comply with relevant transportation regulations and guidelines to ensure safe transport of hazardous materials if applicable. This includes proper labeling, documentation, and securing packages to prevent shifting or damage during transit. 6. **Environmental Considerations**: - Sustainable packaging practices should be considered where possible, including the use of recyclable materials or reusable containers to minimize environmental impact. ### Typical Packaging Practices:
Fused Tungsten Carbide Powder
Color | Grey |
Average Particle Size | 2 micron to 100 micron |
Usage/Application | Industrial |
Material | Tungsten Carbide |
Brand | Parshwamani Metal |
Country of Origin | Made in India |
Titanium Nitride Powder
Product Brochure
Minimum Order Quantity | 1 Kg |
Country of Origin | Made in India |
### Properties of Titanium Nitride Powder
1. **Chemical Composition**: - Titanium nitride (TiN) powder consists of titanium (Ti) and nitrogen (N) atoms in a crystalline structure. It is typically synthesized using chemical vapor deposition (CVD) or physical vapor deposition (PVD) techniques.
2. **Physical Appearance**: - Titanium nitride powder is typically yellow-gold in color, imparting a distinctive appearance. It is available in various particle sizes, ranging from fine powders to coarse grains, depending on the application requirements.
3. **Mechanical Properties**: - **High Hardness**: TiN is extremely hard, with a hardness approaching that of diamond. This property provides excellent wear resistance and durability, making it suitable for applications requiring protection against abrasive wear. - **High Melting Point**: Titanium nitride has a high melting point (above 2930°C), which contributes to its thermal stability and suitability for high-temperature applications.
4. **Chemical and Thermal Stability**: - **Chemical Resistance**: TiN exhibits high chemical inertness and is resistant to oxidation, corrosion, and many acids and alkalis. It maintains stability in harsh chemical environments, contributing to its longevity in industrial applications. - **Thermal Conductivity**: Titanium nitride has moderate thermal conductivity, allowing efficient heat dissipation. This property is beneficial for applications requiring thermal management and temperature control.
5. **Electrical Properties**: - **Electrical Conductivity**: TiN is an electrical conductor, although not as conductive as metals. It finds applications where electrical conductivity combined with other properties such as hardness and corrosion resistance is advantageous.
6. **Optical Properties**: - **Coloration**: Titanium nitride's distinctive yellow-gold color makes it useful in decorative applications and as a coating material for jewelry, watches, and architectural finishes.
### Applications of Titanium Nitride Powder
Titanium nitride powder is utilized across various industries due to its exceptional properties:
- **Coatings and Surface Treatments**: TiN is widely used as a hard coating material for cutting tools, molds, dies, and machine components to improve wear resistance, extend tool life, and enhance performance in machining operations.
- **Decorative Coatings**: Due to its attractive golden color and durability, TiN is used as a decorative coating for jewelry, watches, consumer electronics, and architectural applications.
- **Industrial Applications**: It is applied in automotive components, medical devices, aerospace parts, and industrial equipment where protection against wear, corrosion, and chemical exposure is critical.
- **Electronics and Semiconductor Manufacturing**: Titanium nitride is used in microelectronics and semiconductor manufacturing as a diffusion barrier, liner material, and for contacts due to its electrical conductivity and compatibility with semiconductor processes.
- **Cutting Tools and Wear Components**: TiN-coated cutting tools and wear components offer improved hardness, lubricity, and resistance to adhesive wear, enhancing their performance in precision machining and manufacturing processes.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging titanium nitride (TiN) powder is crucial to ensure its purity, prevent contamination, and maintain its properties during storage, transportation, and handling. Here are the key considerations for packaging titanium nitride powder effectively: ### 1. Container Selection - **Material Compatibility**: Choose containers made from materials that are chemically inert to titanium nitride, such as glass, certain plastics (e.g., polyethylene or polypropylene), or metal (e.g., stainless steel). Avoid containers made from reactive metals or materials that could react with TiN and compromise its purity. - **Sealability**: Ensure containers have secure closures that provide an airtight seal. This prevents exposure to moisture, air, and contaminants, which can degrade the quality of titanium nitride powder. - **Strength**: Select containers that are strong enough to withstand the weight of the powder and any handling during storage and transportation. This helps prevent leaks, breakage, and damage to the powder. ### 2. Packaging Methods - **Moisture Protection**: Use moisture-proof packaging methods such as vacuum-sealed bags, moisture barrier liners, or desiccant packs inside the containers. Moisture can impact the quality and performance of titanium nitride powder, so maintaining a dry environment is critical. - **Anti-Static Measures**: Titanium nitride powder can generate static electricity, leading to dust particle dispersion and potential hazards. Use anti-static packaging materials or incorporate anti-static agents to reduce static charge buildup and ensure safe handling. - **Labeling**: Clearly label containers with information such as "Titanium Nitride Powder," handling instructions, hazard symbols (e.g., health hazard, fire hazard), and emergency contact information. Include details about the material's properties and any special handling precautions. ### 3. Handling and Storage - **Personal Protective Equipment (PPE)**: Provide appropriate PPE to pe
Antimony Metal Powder
Color | Green |
Usage/Application | Industrial |
Brand | Parshwamani Metals |
Form | Powder |
Packaging Size | 25 kg |
Purity | 99% |
Material | Antimony Metal |
Packaging Type | Bag |
Technical Specifications:
Properties | |
Assay (SbCl3) | 99.500% Min |
Sb | 53.000% Min |
Substance insoluble in Hydrochloric Acid and chloroform insoluble matter | 0.005% Max |
Arsenic (As) | 0.002% Max |
Iron (Fe) | 0.0005% Max |
Lead (Pb) | 0.0010% Max |
Boiling Point | 222°C |
Solubility in Water | Hydrolyzed to SbOCl and HCL |
Appearance | White Granular Powder |
Specific Gravity | 3.06 |
Melting Point | 73.4°C |
Titanium Nitride Powder
Minimum Order Quantity: 1 Piece
Country of Origin | Made in India |
Titanium nitride (TiN; sometimes known as tinite) is an extremely hard ceramic material, often used as a physical vapor deposition (PVD) coating on titanium alloys, steel, carbide, and aluminium components to improve the substrate's surface properties.
Applied as a thin coating, TiN is used to harden and protect cutting and sliding surfaces, for decorative purposes (for its golden appearance), and as a non-toxic exterior for medical implants. In most applications a coating of less than 5 micrometres (0.00020 in) is applied
Additional Information:
- Item Code: PARSHWAMANI1033
- Production Capacity: 1000 KGS
- Delivery Time: 1
- Packaging Details: STANDARD PACKING & CUSTOMISED PACKING IS DONE
Titanium Nitride Nanopowder
Product Brochure
Minimum Order Quantity | 1 Kg |
Country of Origin | Made in India |
Titanium nitride nano powder refers to titanium nitride (TiN) particles that have dimensions on the nanometer scale, typically ranging from 1 to 100 nanometers in size. These nano-sized particles exhibit unique properties compared to their bulk counterparts, making them suitable for a variety of advanced applications. Here's an overview of titanium nitride nano powder:
Properties of Titanium Nitride Nano Powder-
Chemical Composition:
- Titanium nitride nano powder has the same chemical composition as bulk TiN, consisting of titanium (Ti) and nitrogen (N) atoms in a crystalline structure. The nano scale provides a high surface area-to-volume ratio, influencing its properties.
-
Physical Properties:
- Particle Size: Titanium nitride nano powder typically has particle sizes ranging from 1 to 100 nanometers. The small size leads to unique optical, mechanical, and electrical properties compared to larger particles.
- Surface Area: Nano-sized particles have a significantly larger surface area per unit mass compared to bulk materials, which can enhance reactivity and surface-related properties.
-
Mechanical and Thermal Properties:
- Hardness and Wear Resistance: TiN nano powder retains the exceptional hardness and wear resistance characteristic of bulk TiN. This property is advantageous for applications requiring abrasion resistance and durability.
- Thermal Stability: Nano-sized TiN maintains thermal stability at elevated temperatures, making it suitable for high-temperature applications such as coatings and thermal barrier materials.
-
Electrical and Optical Properties:
- Electrical Conductivity: Titanium nitride nano powder exhibits electrical conductivity, although this property can be influenced by factors such as particle size and surface modifications.
- Optical Properties: TiN nanoparticles may exhibit unique optical properties such as plasmonic effects, absorption characteristics, and coloration, depending on their size and morphology.
-
Chemical Stability:
- Titanium nitride nano powder is chemically stable and resistant to oxidation, corrosion, and many acids and alkalis, similar to bulk TiN. This stability contributes to its longevity in various applications.
Titanium nitride nano powder finds applications across diverse industries due to its unique properties and nanoscale dimensions:
-
Advanced Coatings: Used as a coating material to enhance the hardness, wear resistance, and corrosion resistance of surfaces in automotive, aerospace, and tooling industries.
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Catalysis: Utilized as a catalyst or catalyst support due to its high surface area and catalytic activity, particularly in chemical synthesis and environmental applications.
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Electronics and Optoelectronics: Applied in electronic devices, sensors, and optoelectronic components due to its electrical conductivity, thermal stability, and optical properties.
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Biomedical Applications: Investigated for use in biomedical sensors, drug delivery systems, and imaging due to its biocompatibility and surface reactivity.
-
Energy Storage and Conversion: Used in energy storage devices (e.g., batteries, supercapacitors) and energy conversion technologies (e.g., solar cells) for enhanced performance and durability.
Additional Information:
- Production Capacity: 10000 MT
- Delivery Time: READY STOCK
- Packaging Details: Packaging titanium nitride nano powder requires careful consideration to maintain its integrity, prevent contamination, and ensure safety during handling, storage, transportation, and use. Here are the key factors to consider for effectively packaging titanium nitride nano powder: ### 1. Container Selection - **Material Compatibility**: Choose containers made from materials that are chemically inert to titanium nitride, such as glass, certain plastics (e.g., polyethylene or polypropylene), or metal (e.g., stainless steel). Avoid containers made from reactive metals or materials that could react with TiN and compromise its purity. - **Sealability**: Ensure containers have secure closures that provide an airtight seal. This prevents exposure to moisture, air, and contaminants, which can degrade the quality and properties of titanium nitride nano powder. - **Strength**: Select containers that are strong enough to withstand the weight of the powder and any handling during storage and transportation. This helps prevent leaks, breakage, and damage to the powder. ### 2. Packaging Methods - **Moisture Protection**: Use moisture-proof packaging methods to prevent absorption of moisture, which can affect the properties of titanium nitride nano powder. Options include vacuum-sealed bags, moisture barrier liners, or desiccant packs inside the containers. - **Anti-Static Measures**: Titanium nitride nano powder can generate static electricity, leading to dust particle dispersion and potential hazards. Use anti-static packaging materials or incorporate anti-static agents to reduce static charge buildup and ensure safe handling. - **Labeling**: Clearly label containers with information such as "Titanium Nitride Nano Powder," handling instructions, hazard symbols (e.g., health hazard, fire hazard), and emergency contact information. Include details about the material's properties and any special handling precautions. ### 3. Handling and Storage - **Personal Protective Equ
Bismuth Powder
Brand | Parshwamani Metals |
Usage/Application | Industrial |
Packaging Type | Bag |
Packaging Size | 25 kg |
Physical Form | Powder |
Material | Bismuth |
Specifications:
- Dimensions: 100-325 mesh
- Particle Size / Mesh: 60,100,150,200,300,325,400,439,500,600,800,1000 mesh, extremely small
- Application: producing Bismuth products and Bismuth alloys, welding electrode
- Mesh: 80-500 mesh
Manganese Powder
Color | Grey |
Brand | Parshwamani Metals |
Form | Powder |
Packaging Size | 25 kg |
Purity | 99 % |
Packaging Type | Bag |
Features:
- Long shelf life
- Suitable as catalyst
- Tamper proof packaging
Specifications:
- Formula: Mn
- M.W: M.W. 54.94
- Min.assay: 99%
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