What exactly is colloidal or sol gold? It is a colloidal suspension (or colloidal solution) of nanoparticles of gold in liquid, usually water. Colloid colors are typically wine red for spherical particle…
What exactly is colloidal or sol gold? It is a colloidal suspension (or colloidal solution) of nanoparticles of gold in liquid, usually water. Colloid colors are typically wine red for spherical particle sizes less than 100nm or blue/purple (for more spherical particles, or nanorods).
Property of Colloidal Gold
Colloid gold nanoparticles’ properties and applications are greatly affected by their shape and size. A rod-shaped particle, for instance, has transverse and longitudinal absorption peaks. Their anisotropy will impact their ability to self-assemble.
How are gold nanoparticles utilized?
Drug delivery system
The biological distribution of drugs can be optimized to target diseased cells, tissues and organs with gold nanoparticles. If drug distribution is not sufficient, nanoparticles are able to deliver drugs. This includes targeting unstabil drugs like proteins, siRNA, and DNA. It also allows for drug delivery to more difficult locations (brain, retinas, tumors), as well as drugs with severe side effects such anticancer medications. Their size and function determine the properties of nanoparticles. The properties of nanoparticles can also vary depending on their surface function and size. This is due to the variability in drug release or particle disintegration (e.g. biodegradable, sensitive to pH) An optimal nano-drug distribution system will ensure that active drugs are accessible within the time and duration required by the action site. The min. concentration must be less than 0. The effective concentration (MEC), should be lower than the min. toxic concentration (MTC).
For drugs like Paclitaxel, nanoparticles of gold are being investigated. Hydrophobic drugs can only be delivered by molecular packaging. The nanoparticles were found to have a high efficiency in bypassing the reticuloendothelial systems.
Enhancer for Radiotherapy
It has received a great deal of interest to use gold nanoparticles and others containing heavy elements to raise the dosage to cancer patients. Due to the fact that gold nanoparticles can absorb tumors more than those in healthy tissue, it is possible to increase the dose. Local deposition of radiation near nanoparticles seems to account for the biological effects of the treatment. It is similar to heavy ion therapy.
Toxic gases
Researchers developed an inexpensive and easy method of detecting hydrogen sulfide in the atmosphere based upon the anti-aggregation properties of gold nanoparticles. Hydrogen sulfide is dissolvable in an alkaline buffer solution. The solution creates HS,HS- which stabilises AuNPs while ensuring that they stay red. It allows visual observation of hydrogen Sulfide toxicity levels.
What do gold nanoparticles consist of?
Turkevich, et al.1951 devised a procedure for the formation of AuNPs. They used citric Acid in boiling water to reduce tetrachloroauric (HAuCl4). Citric acid also serves as a stabiliser. Frances modified the ratio of citric acid to gold in this process to increase the control over the particle size. It has been used extensively to produce moderately stable, spherical AuNPs. However, it is also capable of producing larger AuNPs (for instance, 100 nm).
Why is gold nanoparticles so red?
The visible spectrum is where gold nanoparticles have their resonance frequency. Because smaller gold nanoparticles are more sensitive to violet, green, yellow, and blue wavelengths and so appear red, they can absorb these wavelengths and reflect them back.
Price for colloidal gold
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
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Silicon nitride It is an organic substance having the chemical formula SI3N4. Silicon nitride can be used as a structural ceramic material. It has high hardness, lubricity, and wear resistance. Silicon nitride…
Silicon nitride
It is an organic substance having the chemical formula SI3N4. Silicon nitride can be used as a structural ceramic material. It has high hardness, lubricity, and wear resistance. Silicon nitride can be very strong, especially when hot-pressed. This is why it is one of the strongest materials in the universe.
Silicon Nitride Powder Properties
Silicon nitride does not interact with water. Instead, it is slowly hydrolyzed by strong acid to create ammonium salts or silicon dioxide. It can also be easily soluble in hydrofluoric acids and is incompatible with dilute acids. Strong alkali solutions can slowly corrode silica nitride. Molten alkali can transform silicon nitride quickly into silicate and ammonia.
Silicon nitride has a very high resistance to high temperatures. Its strength can be maintained at a temperature of 1200degC without deterioration. It won’t melt in heat and it won’t decompose after heating. It has remarkable chemical resistance. Silicon nitride has remarkable chemical resistance. It can withstand most inorganic acids, caustic soda solution below 30%, and corrosion by many other organic acids.
Silicon Nitride Powder Applications
The high strength and resistance to heat of silicon nitride clays are some of the highlights. It has the highest comprehensive mechanical properties among ceramic materials. It is the original ceramic used in thermomechanical components. This is a potential material. A candidate material.
Silicon nitride Ceramics are used in the chemical sector as wear-resistant, corrosion-resistant parts. They include ball valves and pump bodies, as well as combustion vaporizers, filters, and other components.
The silicon nitride clays used in the metallurgical sector are durable, low friction, and self-lubricating. It is stable to most alloy and metal solutions. It can therefore be used for the production of metal material processing tools, including dial mandels, extrusion, wire drawing and transfer dies, rollers and transfer rollers as well as heating element fixtures and thermocouple sets. Crucible, aluminum liquid guide camps, aluminum cladding, and other related products are also possible.
It has excellent characteristics and is used frequently to make bearings, turbine blades and mechanical seal rings. It can improve the quality and efficiency of diesel engines by using silicon nitride clays which are resistant to heat transfer and high temperatures.
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cerium powder is one of the rare earths used in polishing, as it can produce a very fine polished surface. This powder is often used with flat lap polishing machines to remove light scratches from glass, mirrors and other surfaces.
Hi-Tech Diamond’s cerium oxide is optical grade, ground to half the size of most other cerium powders, providing an exceptional polish on a wide range of materials. It is a preferred polishing powder for many lapidary and jewelry applications.
Use it with felt and foam polishing pads, or a rotary polishing tool to achieve a smooth, shiny surface on a variety of items including glass, stone, crystals, ceramics, and jewelry. This cerium oxide is sold in convenient, ready-to-mix bottles and comes with a foam sponge applicator brush for easy application.
Several chemical techniques have been developed to synthesize nanocrystalline powders for applications in the manufacture of glasses, ceramics, phosphors, and catalysis. A number of methods rely on a change in pH or temperature to cause precipitation, although there are other approaches that do not rely on pH.
Matijevic and Hsu prepared non-spherical crystalline cerium oxide by precipitation with urea at elevated pH. The precipitate was hydrothermally treated to generate nanoscale crystallites weakly bonded within agglomerates. The agglomerates were not redispersed after treatment, but they had a narrow size distribution and high specific surface areas, indicating that surface forces can control the agglomerate morphology and size of the resulting powders.
A soft solution method was also developed to prepare nanocrystalline CeO2 powders by precipitation of a cerium nitrate precursor with citric acid in aqueous solution. The calcination temperature was found to be important in the size of the final crystalline particles, while the proportion of citric acid was also a significant factor in controlling the agglomerate morphology.
A simple covalent compound such as sodium chloride exists as a fuming liquid at room temperature because there are only Van der Waals dispersion forces and dipole-dipole attractions between its molecules. It does not conduct electricity because there are no ions and no mobile electrons.
In contrast, ionic compounds such as sodium chloride and magnesium chloride form large ionic crystal lattices at room temperature and have very high melting and boiling points because the strong ionic attractions require a lot of heat to break. When these solids melt they undergo a process known as electrolysis and change their structures from ionic to covalent.
Silicon tetrachloride, also known as tetrachlorosilane, is an inorganic compound with the formula SiCl4. It is a colorless volatile liquid that fumes in air and is used to produce high purity silicon and silica for commercial applications. When it is added to water, it reacts violently to produce silicon dioxide and hydrogen chloride gas. In a large excess of water, however, it dissolves to form a solution containing hydrochloric acid. SiCl4 has a normal boiling point of 57.7 oC.
Zink oxide contains an oxide zinc. Water insoluble, acids and strong base soluble. Zinc oxide, an important chemical additive, is commonly used for the manufacture of silicate products, plastics, rubbers, paints, adhesives….
Zink oxide contains an oxide zinc. Water insoluble, acids and strong base soluble. Zinc oxide, an important chemical additive, is commonly used for the manufacture of silicate products, plastics, rubbers, paints, adhesives. Food, batteries and flame retardants are all examples. At room temperature, zinc oxide exhibits excellent luminescence properties and has a high band gap and exciton bound energy. You can use it in liquid crystal displays and thin film transistors as well light emitting diodes.
As a nano-material of zinc oxide, microparticles also became a part of related areas.
How is Zinc Oxide used?
1. It’s used mostly as a reinforcement agent, active agent or in rubber cable industry, coloring agent, filler of rubber and vulcanizing agents in Chloroprene.
2. Fine desulfurization in the chemical fertilizer sector.
3. Primarily used in white pigments for rubber vulcanizing activ agents, organic catalysts or desulfurizing agents. They are also useful for pharmaceutical and xerographic printing.
4. It is used to desulphurize NH3, petroleum, and natural gas chemical materials gas.
5. Use it as a matrix in the analysis of reagents, reference agents, fluorescent agents, and other photosensitive data.
6. Useful for electronic wet copying, dry printing, laser facsimile communication and electrostatic recording on electronic computers.
7. It is used for special functions, such as plastic occupation and cleaning textiles.
8. It’s widely used for deep desulfurization of industrial material such as NH3, methanol, and hydrogen production.
9. It is used to make plaster and ointment.
10. Useful in the printing and papermaking industries, match-making, coloring, dyeing and other uses. As a coloring agent in natural rubber, latex and rubber industries, it is also used as an active ingredient, reinforcement agent and vulcanizing agent. You can also use it in production of zinc chromium, zinc yellow, and zinc carbonate. Additionally, it can be used to create feed additives in feed processing as zinc patching agents.
11. White pigment. This pigment has a lower coloring power than Lithopone or titanium dioxide. This resin is used extensively in ABS resin (C8H8) n and epoxy resin as well as phenolic and NH3-based resins and PVC, paint, ink, and other applications.
What role does Zinc oxide play in coatings?
1. Zinc oxide can be used as a white color. Also known as zinc white, it is a white pigment. Zinc oxide has a lower coloring power than titanium dioxide. This means that it can be used in situations where zinc dioxide is not required to change the color of titanium varnish. This makes it easy to weigh the paste and allows for easier adjustment.
2. This is a little-used method to increase the coating properties in epoxy resins with carboxyl functional bands.
Zinc oxide can be alkaline, reacts with epoxy resin functional groups to make zinc soap. The coating will improve flexibility and strength and it is lighter than titanium dioxide.
3. Promote the reaction between carboxyl and epoxy groups.
Epoxy resin / Polyester, polyester / TGIC and other electrostatic materials have a catalytic process that accelerates epoxy reaction, dry-solidifies the catalyst, and solidification times are reduced.
4. It can be used as a filler for conductive functions.
Some industrial applications require the prevention of static electricity. This is because zinc oxide, a metaloxide, has an electrical conductivity. Therefore, it’s used extensively as a conductive coating.
5. It protects ultraviolet light.
Zinc dioxide is an inexpensive white light stabilizer. This has a high level of security protection, particularly for ultraviolet light between 240 and 380nm. This coating is used in outdoor electrostatic powder and has good UV shielding properties. It can extend the life expectancy of your powder.
6. You can remove bacteria and mildew.
Zinc oxide can sterilize architectural coatings that are water-soluble and has strong germicidal abilities. Use it in the form of electrostatic powder to get rid mildew.
Why does rubber contain zinc oxide?
While zinc oxide makes up a tiny part of rubber compound production, it still plays an important role. Together, zinc oxide and the stearic acid make zinc soap. This improves zinc oxide’s solubility in rubber compound. It also forms a complex that contains an accelerator. This is a very powerful compound that reacts strongly with sulfur and forms a strong vulcanizing agents. This is the key to rubber production.
Zinc oxide also has the ability to improve rubber’s crosslinking density during production. Zinc oxide reacts to stearic to create Zn2++ sodium, which chelates to the side hanging rubber accelerator containing the sulfur. This makes the weak bonds in rubber in a stable form, alters the cracking position, rubber vulcanization makes shorter crosslinking bonds and increases the cross-linking densities. Additionally, this can improve the vulcanizates’ aging and thermal properties.
Zinc oxide price
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity and market sentiment are also important.
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gold carbide is a new type of nanocrystal made from gold atoms and carbon. These nanocrystals are atomically stable and exhibit a high bulk modulus. They are also extremely light, weighing only…
gold carbide is a new type of nanocrystal made from gold atoms and carbon. These nanocrystals are atomically stable and exhibit a high bulk modulus. They are also extremely light, weighing only 141 g/cm3 at room temperature and have a strong chemical bond between the carbon and the gold atoms.
In addition to being a new type of metal, gold carbide is an important step in the quest for a crystalline material with gold carbon bonds and other unique properties. It is believed to have originated in the 1800s as a gold acetylide and has since been reported to be an ‘electrolyte’ (a substance with a low electronegativity) and an ‘interstitial’ (an interstitial is an unstructured crystal).
Various types of carbides are produced by reacting carbon with a metal element, usually at a high temperature. They are used in industrial, engineering and household applications for their hardness, strength, and resistance to chemical attack at higher temperatures than those of their parent elements.
Carbides can be made from carbon and a metal oxide, an intermediate transition metal ion, or a nonmetal, such as tungsten or iron. The most common carbides are derived from silicon and tungsten.
The most popular form of tungsten carbide is a metal alloy that has a carbon content of between 5 and 20 percent. It is a very durable and hard material and can be polished to an exceptionally high finish.
The most obvious advantage of tungsten carbide over other metals is that it is much harder and denser, making it less likely to crack or shatter in the case of an impact. It also resists scratching and tarnish and is hypoallergenic so it doesn’t cause ring rash or other skin problems in those who are sensitive to traditional metals.
What is it? Mn2O3 Pulver ? Manganese oxide trioxide, a compound with the chemical formula Mn2O3, and a molecularweight of 157.88, is an oxide. Black cubic crystals. Relative densities 4.50 Water, acetic…
What is it?
Mn2O3 Pulver
?
Manganese oxide trioxide, a compound with the chemical formula Mn2O3, and a molecularweight of 157.88, is an oxide. Black cubic crystals. Relative densities 4.50 Water, acetic acid, and ammonium chloride solution are insoluble. It is also insoluble in other inorganic acid. It can be dissolved in cold chloric acid to make a brown solution or in hot dilute sulfuric and concentrated sulfuric acids to make a red solution. Once heated, it will decompose into MnO2 & manganese Nitrate, and then decomposed to Mn3O4, which is released as O2. It is available in two forms: a–Mn2O3 (or g–Mn2O3). The a-type is made by heating divalent Manganese in air to 600800, and the hydride, carbonate, or chloride of divalent manganese to decompose. The g type is made by heating MnO2 in vacuum at 500 for 48 hours. It can be used for the printing and dyeing processes of cloth, as well as in the oxidation process carbon monoxide, organic compounds and nitrate.
The properties of Mn2O3 powder
Manganese Trioxide is a black cubic crystalline, insoluble and insoluble in water, Acetic Acid, and Ammonium Chloride Solution. It is also soluble with other inorganic acid. When heated to 1080, it becomes Mn3O4 (and O2) It is dissolvable in cold hydrochloric to a brown solution. In Chemicalbook hot dilute or concentrated sulfuric acids, it can be made into a solution that is reddish in color. When heated, it will decompose into Mn3O4 (and O2) and manganese-nitrate in hot acid. It comes in two forms: a–Mn2O3 (g-Mn2O3) and g–Mn2O3.
Manganese Oxide Mn2O3 Powder Properties
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Other Titles
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Manganese oxide, Manganese(3+) oxide, Manganese sesquioxide,
Dimanganese trioxide, Keto-(ketomanganiooxy)manganese,
Manganese(3+) oxide, Manganese trioxide,
Oxo-(oxomanganiooxy) manganese
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No.
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1317-34-6
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Combination Formula
|
Mn2O3
|
Molecular Weight
|
157.87
|
Appearance
|
Black Solid
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Melting Point
|
940 degC (1724 degF)
|
Solubility of in water
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N/A
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Density
|
4.5 g/cm3
|
Purity
|
99.50%
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Particle size
|
0.8mm
|
Boling Point
|
N/A
|
Specific heat
|
N/A
|
Thermal Conductivity
|
N/A
|
Thermal Expansion
|
N/A
|
Young’s Modulus
|
N/A
|
Exact Mass
|
173.856
|
Monoisotopic
|
173.856
|
Manganese Oxide Mn2O3 CAS 1317-34-6
Mn2O3 Powder preparation
1. A-Mn2O3a can be prepared by further oxidation/reduction of manganese oxides or heating divalent Manganese salts in air at 600-800degC. To heat manganese nuitrate hexahydrate, or pure b–MnO2, to a constant temperature at 650°C in air is the best way. Manganese nitrate-hexahydrate is used as the raw material. It must be heated to 190°C to create a solid substance. Pulverize it and then heat to 650°C.
2. Preparation of G-Mn2O3 To make the suspension that emits oxygen darken or black, heat for 4 minutes. Then filter and separate the solid. For gMn2O3, the g-MnO(OH was carefully dehydrated at 250°C for 3 days. You can also prepare g–MnO2 by heating it at 500°C for 78h, under reduced pressure.
Use of Mn2O3 Pulver
1. Mn2O3 can be used for a variety of purposes and is suitable for use in the dyeing and printing of fabrics.
2. It can catalyze the oxidation organic pollutants and of nitrogen oxides.
3. It can be used as a precursor to soft magnetic material.
4. Used as a raw ingredient in the production of lithium ion battery electrode materials.
5. It is the primary and intermediate product of the manganese compound.
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Oxide
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A new type of charger called a gan charger is getting plenty of hype. These devices use a special material called gallium nitride, which allows components to be packed tightly together. This translates into smaller chargers that can power smartphones, laptops and tablets at a higher wattage than standard silicon-based chargers.
gan chargers also have some other advantages. They produce less heat, which means they can be more compact and are more energy efficient. And they’re more durable than traditional silicon chargers. This is good news for anyone who hates lugging around a massive power brick to charge their laptop, tablet and phone. gan chargers can replace multiple larger chargers, which is especially helpful for travelers and people who spend a lot of time on the go.
The best gan chargers can be expensive, but you can find them at lower price points as well. For example, the Baseus 65W 3-Port GaN Charger is one of the cheapest gan chargers on the market. It provides enough power to fast-charge a laptop and two USB-A devices. And it comes with a folding plug, which makes it convenient for travel.
You can also pick up a cheaper GaN charger with more ports, such as the Ugreen 100W Four-Port GaN Charger. It has enough power to fast-charge a MacBook and two other devices, and it also has features like Intelligent Compatibility Detection and Adaptive Charging Technology. However, it does get uncomfortably warm when charging for an extended period of time.
What is it? Titanium Nitride ? Titanium Nitride is a compound that has a molecular structure of TiN and a mass of 61.88. TiN powder can be found in yellow-brown colors, but…
What is it?
Titanium Nitride
?
Titanium Nitride is a compound that has a molecular structure of TiN and a mass of 61.88. TiN powder can be found in yellow-brown colors, but the ultra-fine TiN is black and the TiN crystals are golden yellow. TiN’s melting point is 2950. The Mohs hardness 8-9 is excellent, and it is resistant to thermal shock. TiN has both a higher melting point and lower density than many transition metal nitrides. It can be used in conductive materials, such as electrodes or electrical contacts, for molten-salt electrolysis.
These are the main features of Titanium Nitride
There are two types of titanium dioxide (Ti2N2), and one type of titanium tetranitride. Titanium dinitride, a yellow solid, is also known as titanium nitride. In boiling water, dissolve. Hot sodium hydroxide solution will release ammonia. Titanium tetranitride’s properties are very similar to that of titanium dioxide.
It is possible to make it directly by reacting titanium with nitrogen at 1200 °C. It can be made by using a vapor-deposition process of titanium tetrachloride and nitrogen. Titanium dinitride results from heating titanium metal in nitrogen, ammonia at 900 to 1000 degC. Titanium tetranitride results from heating titanium tetrachloride with ammonia at 1000°C.
Titanium Nickel Nitride Properties
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Other Titles
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Tinite, TiNite, TiN powder, nitridotitanium
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No.
|
25583-20-4
|
Combination Formula
|
TiN
|
Molecular Weight
|
61.87
|
Appearance
|
Brown Powder
|
Melting Point
|
N/A
|
Boiling Point
|
N/A
|
Density
|
5.24 g/cm3
|
Solubility of H2O
|
N/A
|
Exact Mass
|
61.951
|
Titanium Nitride Nitride TiN powder CAS 25583-20-4
Titanium Nitride and its applications
1. For metal edges, titanium nitride is widely used to protect against corrosion of tools like drills and milling cutters. It can also be used to prolong the life of these machines by up to three times.
2. It is used for ornamental embellishments on clothing and cars because of its metallic luster. As an outer coating nickel (Ni), chromium(Cr) are often used to plat the substrate for packaging pipes and door and window hardware.
3. It is used in aerospace, military, and to protect the surfaces of bikes and motorcycles as well as the shock-absorbing shafts on remote-controlled toys cars.
4. The FDA approved material is non-toxic. It can also be used in medical devices. For example, it can maintain the sharp edges of scalpel blades.
5. As a conductive barrier between metal contacts and active devices, titanium nitride film can be used in microelectronics. It is possible to make a good conductive connection by diffusing the film onto metal silicon.
6. This “barrier” metal also has the mechanical and chemical properties of ceramics. It is heavily used in 45nm chip designs to increase transistor performance. By combining titanium Nitride with a gate Dielectric Layer (eg, HfSiO), a battery field that uses titanium nitride can achieve a higher dielectric constant, higher gate length, lower leakage and thereby a better threshold voltage. 7. The high biological stability extends the application field of this alloy to bioelectronic electrodes, such as subretinal prosthesis projects and microelectromechanical systems (biological microelectromechanical systems) in biomedicine, making smart implants or in vivo biosensors Able to withstand severe body fluid corrosion.
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About Metal Alloy 8.92g/Cm3 High Purity Polished Copper Plate:Surface:mill, polished, bright, oiled, hair line, brush, mirror, sand blast.Dimension:Metal Alloy 8.92g/cm3 High Purity Polished Copper Plate PropertiesOther NamesCopper PlateCAS No.N/ACompound FormulaCuMolecular WeightN/AAppearanceN/AMelting PointN/ASolubility…
About Metal Alloy 8.92g/Cm3 High Purity Polished Copper Plate:
Surface:
mill, polished, bright, oiled, hair line, brush, mirror, sand blast.
Dimension:
Metal Alloy 8.92g/cm3 High Purity Polished Copper Plate Properties |
Other Names | Copper Plate |
CAS No. | N/A |
Compound Formula | Cu |
Molecular Weight | N/A |
Appearance | N/A |
Melting Point | N/A |
Solubility in water | N/A |
Density | 8.92g/cm3 |
Purity | 99.95%, 99.99%, 99.995% |
Size | customized |
Boling point | N/A |
Specific Heat | N/A |
Thermal Conductivity | N/A |
Thermal Expansion | N/A |
Young’s Modulus | N/A |
Exact Mass | N/A |
Monoisotopic Mass | N/A |
| |
| |
Metal Alloy 8.92g/Cm3 High Purity Polished Copper Plate Health & Safety Information |
Safety Warning | N/A |
Hazard Statements | N/A |
Flashing point | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Safety Statements | N/A |
RTECS Number | N/A |
Transport Information | N/A |
WGK Germany | N/A |