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Application of 3D printing technology in the medical industry

The 3D printing industry has been a leading high-tech in the last few years. As well as being widely used to protect ancient cultural relics in aerospace, manufacturing and other fields, the 3D-printing technology is continuously released in medical industry. Its value alone has an unlimited market. Here are the details:
Medical models and surgical guides can be customized using 3D printed medical models

To create a medical model, you can perform three-dimensional modelling based on CT or MRI images of the patient before the operation. You then print out the model using a 3-D printer. The main function is that the 3D printed model allows the doctor to view the three-dimensional site of surgery before the operation. It helps the doctor plan their surgical plan. This is especially useful for complex surgeries as it reduces the risks and increases the success rates.

Applications of 3D Printing in Dentistry

Dental clinics, laboratories and dentists need to take into consideration the cost of dental restorations and treatments. To improve efficiency and lower costs, many forward-thinking dental clinics have adopted digital dental technology. Recently, software-based dental restorations have gained popularity. Digital dental technology coupled with 3D printing offers high precision and efficiency at a low cost.

Applications of 3D Printing in Medical Device Manufacturing

The manufacturing of medical devices is similar to other products. For the verification of design, prototypes must be produced during the product development stage. The metal 3D-printing technology has the ability to perform complex surgical device production tasks. In order to repair an anterior cruciate knee ligament injury, the doctor first has to remove any remaining anterior ligament and then precisely replace the graft. In order to achieve accuracy and minimize invasiveness, doctors must use a sophisticated and specialized surgical tool. This nickel-chromium alloy is a hard-to-process metal. Traditional machining is required to make the tool, and this takes time and costs a lot. In this situation, metal 3D-printing technology is a better option for manufacturing.

Use of 3D printing for manufacturing medicines

Three-dimensional printing has an impact on pharmaceuticals in four ways: first, it allows for personalized customization of active ingredients; second, it allows patients to have personalized treatment plans. This layer-bylayer printing technique allows different coatings be tightly combined together so that a patient can take a smaller tablet or the maximum amount of a substance. 3D-printing technology can be used to create various shapes that are appealing to children who do not like taking medicine.

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The 3D printing industry has been a leading high-tech in the last few years. As well as being widely used to protect ancient cultural relics […]

The Properties And Application of Graphene oxide

What is Graphene Oxide?
The oxide graphene is known as graphene oxide. It is usually abbreviated GO. The color of the oxide is brown-yellow. Common products available on the market include powder, flake, and solution. Its properties become more active after being oxidized because the functional groups containing oxygen are increased.

Graphene flakes are made from graphite powder, which has been chemically oxidized and exfoliated. Graphene is an atomic-thick layer that can expand up to tens or microns in size. Graphene oxide’s structure spans the usual scales in general chemistry and material science. Graphene is a soft material that has the properties of colloids, polymers and films. Due to its excellent dispersibility in liquids, graphene has long been considered a hydrophilic compound. Graphene oxide, according to relevant experiments, is actually amphiphilic. It shows hydrophilicity along the graphene sheet’s edge, and hydrophobic properties in the center. The graphene-oxide layer can be used at the interface as a surfactant to reduce the energy. Its hydrophilicity has been widely acknowledged.

The application and use of graphene oxide

The graphene oxide class is an important graphene based material. Although the oxidation destroys graphene’s highly conjugated structure, it retains its layered structure and special surface characteristics. The introduction of oxygen-containing groups not only makes graphene oxide chemically stable, but also provides surface modification active sites and a larger specific surface area for the synthesis of graphene-based/graphene oxide-based materials. Graphene Oxide, used as a precursor for graphene composite materials and a support carrier, is highly functionalizable and controllable. It provides a large surface area for dispersing metals and metal oxides as well as high molecular weight polymers.

The number and type of oxygen-containing groupings are used to modulate the conductivity of graphene. The material is versatile and has many applications. The material has many applications. Surface modification of graphene-oxide composite materials has many applications. This includes polymer composite materials as well as inorganic compound material.

Graphene oxide is widely used as a semiconductor electronic package due to its excellent properties in terms of electrical, mechanical and thermal properties.

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What is Graphene Oxide? The oxide graphene is known as graphene oxide. It is usually abbreviated GO. The color of the oxide is brown-yellow. Common […]

Silica aerogels have unique mesoporous structure and properties which are widely used in many fields

What is silica Aerogel?
Silica Aerogels are lightweight materials that can be used in many applications, including chromatography and high-temperature insulation. The hydrophilic as well as hydrophobic silica is available in different densities and forms such a discs. American Elements can produce most materials in high purity and ultra-high purity (up to 99.99999%) forms and follows applicable ASTM testing standards; a range of grades are available, including Mil Spec (military grade), ACS, Reagent and Technical Grade, Food, Agricultural and Pharmaceutical Grade, Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia).

What are the uses of silica Aerogel?

The aerogels made of silica are used in optical devices, imaging devices and light guide. Due to its high porosity and surface area, this material is ideal for heavy metal removal.

Insulation field
Silica aerogels have a low density. Comparing it to traditional insulation materials, the aerogel can achieve an equivalent insulation effect while being lighter and having a smaller volume. It is now being used in civilian, military and aerospace fields. Broad application prospects. As an example, the British fighter jet “Puma” uses silica thermal insulation composite materials as the cabin insulation layer. It is possible to use silica aerogel composite thermal insulation on weapons power devices in order to prevent heat spread and facilitate anti-infrared reconnaisance of the weapon. Silica aerogel can also be used as a heat-insulating material and sonic-proofing material in the building industry. It is environmentally friendly, effective, and lightweight. The material is also promising for window insulation because of its transparency and high insulation.

The optical field
Due to its nano-porous nature, silica aerogel has a long free path of visible light and a high light transmittance. The reflection light can be ignored when it is used as light-transmitting materials. The optical anti-reflection glass prepared by utilizing the optical properties silica Aerogel can be used for high-power optical components of laser systems, display devices, or solar cell protective glass.

Electricity field
As a result of its extremely low dielectric constant, aerogel silica can be used to transmit high-temperature waves for missiles.

Catalysis
The nano-porous 3-dimensional network structure, which is unique, results in ultra-fine particles with high porosity. High specific surface area and low density are also characteristics. These properties make it highly adsorbent, improving the activity, selectivity and longevity of the supported catalyst. It is superior than traditional catalysers and has therefore great application value in the area of catalysis.

Medical field
It is a biocompatible and biodegradable material with a high porosity. Silica aerogel can be used for a variety of biomedical purposes, including artificial tissues, organ components, and human organs. It can be used for medical purposes such as controlled release or drug-loaded delivery systems. The sensitive response of silica aerogel loaded enzyme to the existence and reaction of an organism can be used for the manufacture of the biosensor.

How is silica made into Aerogel?

Silica aerogels are made by removing liquid from silica gel’s framework, while preserving at least 50% of its original volume (typically 90-99+%). It is usually done by supercritically dry the gel, but it can be done in a variety of ways.

The main steps in the preparation of silica Aerogel include three parts.

Sol-gelation Process: A precursor reaction is performed on the silicon source to form the sol. Then, a catalyst is introduced to hydrolyze and condense the wet gel.

Ageing gel: To improve mechanical strength and stability, the gel is aged in mother liquor.

Drying process: To form an aerogel, the liquid dispersion medium must dry out the gases from the holes.

How strong is silica aerogel?

The silica aerogel is capable of withstanding up to 2000x its weight if applied evenly and gently. Keep in mind, too, that aerogels can be quite light and 2000 times its weight may not seem like much.

What is silica What are the ingredients in Aerogel?

Aerogels are made by removing water from a gel and maintaining its structure. The material is highly effective as an insulation. Since their invention, the main component of aerogels has been silica. To create gel, the silica and solvent are combined.

A silica Aerogel’s solid frame is composed of silica nanoparticles, which are the oxide of Silicon, like quartz, glass or sand.

Cellulose Silica Nanofiber Aerogels – From Sol Gel Electrospun Nanofibers To Multifunctional Aerogels

Aerogels have a low bulk density but are highly porous and perform well in a variety of applications. But the lengthy and complex fabrication process limits the potential applications. Aerogels have recently been produced with enhanced properties and functions due to the incorporation of fibrous networks. It is possible to create thermally and mechanically durable nanofiber aerogels by using a hybrid electrospun silica/cellulose diacetate nanofiber. Thermal treatment bonds the silica-CDA networks tightly together, improving aerogel mechanical properties and hydrophobicity.

The XRF and Fourier-transform Infrared studies in situ demonstrate that the formation of strong bonds between silica, and the CDA networks results in the fabrication cross-linked structure responsible for their mechanical robustness and thermal stability and enhanced affinity for oil. The hybrid aerogels’ superhydrophobicity and high oleophilicity make them ideal candidates for oil spill cleanup. Their flame retardancy and low temperature conductivity are also useful in applications that need stability.

Small Scale Applications of 3D-Printed Silica Aerogels

The Swiss Federal Laboratories for Materials Science and Technology EMPA, under the leadership of Shanyu Zhao and Gilberto Squeira and Wim Mlfait and Matthias Koebel have been exploring ways to use silica aergels for additive manufacturing on a microscale. They published their findings in the recent “Additive manufacture of silica aergels” which details the study. Most commonly, though, these materials are used for thermal insulation-especially for constricted spaces that may require buffering.

Researchers developed a new patent-pending method for producing micro-structures using direct ink-writing (DIW).

The silica aerogel has good mechanical properties, but its thermal conductivity is low. The authors claim that 3D printed aerogels may be “drilled, milled” and then molded. During the study, 3D printed leaves and a lotus bloom were produced. This demonstrated not only the capability to design overhanging structure but also the printing complex geometries using multiple materials. Due to their small size, these materials could also be used for thermal insulation of electronics. This would prevent them from affecting one another while close together and effectively manage conductive heat spots.

The researchers created a thermos molecular gas pump, or a Knudsen-type pump from aerogel material that was enhanced on one end with nanoparticles made of black manganese oxide. When exposed to light, this material’s dark side warms and pumps out gas or solvent vapors.

The researchers created a lotus blossom made from aerogel as a way to show that 3D-printed structures can produce fine aerogel structures.

This progress could also lead to the use of aerosols as medical implants that protect tissue from heat exceeding 37 degrees. EMPA is currently looking for partners who are interested in using these novel 3D printed Aerogels to develop industrial applications. Also, check out some of the previous research they’ve done, including other types of 3D printed inks made of cellulose and unique molds used to develop sensors.

(aka. Technology Co. Ltd., a reputable global chemical supplier and manufacturer with more than 12 years of experience in providing high-quality Nanomaterials and chemicals. Currently, we have developed a successful series of powdered materials. Our OEM service is also available. To send an inquiry, click on the desired product or send us an e-mail.

What is silica Aerogel? Silica Aerogels are lightweight materials that can be used in many applications, including chromatography and high-temperature insulation. The hydrophilic as well […]

Quality Index of Graphite Electrode

Graphite electrodes are mainly used in the electric arc furnace (EAF) steelmaking process to melt scrap steel. The electrode is made of graphite because it can withstand high temperatures. In an electric arc furnace, the tip of the electrode can reach 3,000 degrees Fahrenheit, which is half the surface temperature of the sun. The size of the electrode varies greatly, ranging from 75 mm in diameter to a maximum of 750 mm, and the longest can reach 2800 mm. The main indicators of graphite electrode quality and performance are: bulk density db, electrical resistivity r, bending strength, elastic modulus E, thermal expansion coefficient a and ash content A%. According to these indicators of graphite electrodes and the differences between different national standards and manufacturing processes of raw materials, graphite electrodes are divided into ordinary power graphite electrodes (RP), high power graphite electrodes (HP), and ultra-high power graphite electrodes (UHP). The post-graphite electrode production plant can add high-density graphite electrodes (HD) and quasi-super-high graphite electrodes (SHP) according to the functional requirements of different users.
On the basis of national standards, each company has its own corporate standards, and customers will make their own order of quality standards. The relative volume density is the ratio of the quality management of the graphite electrode material sample to its volume. The unit is g/cm3. The larger the volume density, the denser the working electrode, which is positively related to the strength and the performance of the anti-oxidation system. Generally speaking, The greater the influence of the volume density of the same type of electrode, the lower its resistivity.
Resistivity is a parameter for measuring electrode conductivity. It refers to the resistance of the conductor to the current when the current passes through the conductor. The value is equal to the resistance of a conductor with a length of 1m and a cross-sectional area of 1m2 at a certain temperature, which reduces consumption during use.
The flexural strength is a parameter that characterizes the performance of the mechanical system of the graphite structure material. It is also called the flexural strength. It means that when the external force is perpendicular to the axis of the object, the object will bend to the instantaneous limit caused by the external force to resist the risk. Capacity, the unit is MPa. High-strength electrodes and joints are less likely to break when using the network.
The modulus of elasticity is an important aspect of mechanical properties. It is an index to measure the elastic deformation ability of a material and refers to the stress-strain ratio within the elastic deformation range. The greater the modulus of elasticity, and the greater the stress required for elastic deformation to generate, it simply, the greater the elastic modulus of brittle materials, the smaller the elastic modulus of flexible materials.
The thermal expansion coefficient of graphite as an electrode is a very important thermal performance parameter. The lower the value, the stronger the thermal stability of Chinese products. The higher the oxidation resistance, the performance can reflect the less fracture and consumption in use, the loss would be less.
Ash refers to other components in solid products other than carbon graphite. As the ash content in the electrode, graphite is directly affected by the ash content of the raw materials used. The ash content of petroleum coke needle coke is low. Therefore, the ash content of graphite passing through the electrode is generally not more than 0.5%, and the ash content within 1% has no effect on steelmaking. Obviously, but the impurity elements in the ash will reduce the performance of the anti-oxidation system of the working electrode, etc.
(aka. Technology Co. Ltd.) is a trusted global chemical material supplier & manufacturer with over 12 years’ experience in providing super high-quality chemicals and Nanomaterials. The graphite powder produced by our company has high purity, fine particle size and impurity content. Lower, please contact us if necessary.

Graphite electrodes are mainly used in the electric arc furnace (EAF) steelmaking process to melt scrap steel. The electrode is made of graphite because it […]

The Main Application of Nano Spherical Silicon Powder

What is spherical silicon powder?

Also known as spherical silicic acid, spherical silicic powder, and so on. The industry. Spherical silica is a white powder of high purity with excellent particles and good dielectric and thermal properties. It has low expansion coefficients and a strong development potential. The purity requirements of spherical powder used in integrated circuits are getting stricter. Normal conditions require that the silicon content is no less than 99.95%.

Features and performance characteristics of spherical Silicon products

Flame fusion is a method that produces spherical silica. Silica in a flame at very high temperatures produces spherical silicone dioxide. It has high purity and is low in radioactivity. It also has good fluidity.

Micro spherical silicais made up of high-sphericity spherical crystalline particles. Its characteristics include high purity and small particle size.

Spherical silica is non-toxic, has no odor, and shows good activity. It is an optoelectronics semiconductor material that has a large gap energy semiconductor and is a high power light source.

Spherical Silicon has excellent properties including low expansion, low stress (low strain), low impurities and low friction coefficient.

There are two main areas where spherical silicon is used:

Spherical silicon is used extensively in the aerospace and aviation industries, as well as semiconductors, electronics, and other materials. Filling materials can be added to phenolic epoxy resins, paints or coatings. It is also used in high-grade ceramics. It can be used in binders and catalysts as well as medicines, castings and packaging materials. Thermal shrinkage is minimal for spherical silicon. The addition of silica spheres to PVC and other plastics products will not alter the color, feel or reduce thermal shrinkage.

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What is spherical silicon powder? Also known as spherical silicic acid, spherical silicic powder, and so on. The industry. Spherical silica is a white powder […]

What is zirconium nitride and its properties?

What is zirconium-nitride (ZrN)? Zirconium Nitride It is an inorganic chemical compound that has different crystal structures. The characteristics of this compound allow it to be used in various ways. ZrN is an alloy compound that has been discovered in the ZrN alloy system. Not only do they have excellent chemical characteristics, but they can also be used for junctions, diffusions stacks, cryogenic meters, etc. These compounds can be used to make metal-based and three-dimensional integrated transistors, as well as in the fabrication of electric coils. These ZrN compounds have superior wear resistance to pure zirconium, as well as superior oxidation and corrosion resistance. In addition, they have a much higher superconducting threshold temperature. value.

Zirconium Nitride properties
The resistivity of ZrN at room temperature is 12.0 uO*cm. Its temperature coefficient is 5.6*10-8 Ohm/K. At 10.4 K the superconducting threshold temperature occurs. The elastic modulus and hardness are 450 GPa. ZrN grown through physical vapor deposition is a golden-like color.

Zirconium nitride preparation
By carbothermal Nitridation, zirconium nitride nanopowders are prepared from a mixture of zirconium gel and carbon black.

ZrO2(s)+3C(s)-ZrC(s)+2CO(g)
2ZrC(s)+2N2(g)+H2(g)-2ZrN(s)+2HCN(g)

Our zirconium powder is ultrafine, with a large surface area, and high purity. Surface activity high. Used in plasticizing ceramics, as well as thermostable organization ceramics.

Zirconium nitride is used in the manufacture of zirconium alloys. You can also find out more about the different kinds of industries
Zirconium nitride This material is similar to cement and titanium nitride. This material is also used to make cermets, laboratory crucibles, and refractory materials. Physical vapor deposition is often used as a coating method for parts such as medical equipment (especially drill bits), industrial parts, automotive and aerospace components, and parts that are prone to corrosion. In the case of alloying with Al the electronic structure is formed from the cubic ZrN’s local octahedral bonds symmetry. This distorted as the Al content increased, leading to a higher bonding complexity and harderness.
The zirconium-nitride coating is used for burs and drills. These coatings can be deposited using physical vapor deposition. Zirconium Nitride-coated tools can be used for nonferrous metal applications. These include machining of aluminum alloys as well as brass, copper alloys and Titanium.
Also, zirconium nitride is used to line hydrogen peroxide tanks on rockets and planes.

(aka. Technology Co. Ltd., a trusted global chemical supplier and manufacturer has over 12 years experience in providing super-high-quality chemicals. The zirconium nitride Please note that the products produced by our company are of high purity and have low impurity. Please. Contact us if necessary.

What is zirconium-nitride (ZrN)? Zirconium Nitride It is an inorganic chemical compound that has different crystal structures. The characteristics of this compound allow it to […]

The Properties And Application of Titanium silicon carbide

1. What is Ti3SiC2?
Titanium Silicon Carbide (Titanium SiC2) is a ceramic material that has all the properties of metals, including electrical conductivity, heat transmission, workability, plasticity, etc. Ti3SiC2 exhibits the characteristics of metals, with good thermal conductivity and electric conductivity at low temperatures, a relatively low Vickers Hardness, and high elastic modulus. It is also ductile at room temperature and has the ability to be processed as metal. It can be processed like metal and is plastic even at high temperatures. The fact that it is self-lubricating and has a lower coefficient of friction is even more impressive than the solid lubricants graphite and Molybdenum Disulfide.

2. Ti3SiC2 Ceramics: Main Properties

Ti3SiC2 has the properties of both ceramics and metals. High elastic modulus reflects the properties of similar ceramics, and high melting points and temperature stability reflects similarities in ceramics.

According to research on the damage resistance properties of Ti3SiC2, the sub-indentation shows that there is an extensive pseudoplastic area. Ti3SiC2 absorbs energy through multiple mechanisms, including diffusion microcracks. This material type also has good self-lubricating qualities. This material can be used as a high-temperature structure, brush, self-lubricating, heat-exchange, etc. Other ceramic materials have a relatively low hardness. They also have low wear resistance.

Thirdly, the application and use of Ti3SiC2 layer ceramic materials

(Biomedical Applications)
Material or components that are used in dentistry must not only be stable and resistant to long-term corrosion, but they also have to be workable and plastic. The biocompatibility of Ti3SiC2 allows it to be used in human tissue. Ti3SiC2 has the ability to be machined accurately into threads, without using lubricant. This allows it to be used for implants and restorations in clinical applications. Comparing Ti3SiC2 with zirconia, its elastic modulus (1.9x105MPa) is closer to enamel or dentin. This increases the potential of using it in porcelain dental crowns or post-propagating high temperature. Ti3SiC2 obtained by self-propagating heat has a porous texture, making it easier to organise and combine. Low coefficient of friction allows for increased sliding and reduced friction resistance in orthodontics. The material must have corrosion resistance and oxidation protection to maintain its stability in an oral environment. Both this material and powder porcelain are ceramic materials. This means that the bonding is likely to be stronger than with metal and porcelain. The porcelain crowns are therefore more versatile.

The current Ti3SiC2 methods of preparation must be improved in order to get a pure Ti3SiC2 and better understand its characteristics. The biocompatibility, clinical feasibility and practicability of this material need to be confirmed in laboratory and clinic studies.

(2) Refractory materials

As rapid firing technology is promoted in the ceramics industry, kiln furnishings are used more frequently and under more difficult conditions. It is therefore necessary to improve the thermal resistance of kiln-furniture materials in order to meet the rapid fire technology of ceramic industry. Development requirements. Quality of kilns furniture is important as a type of advanced refractory materials. It has a great influence on the quality fired products. Thermal shock is not a problem for Ti3SiC2 and its unique layering structure and plasticity at high temperatures can help to reduce thermal stress. The thermal shock resistance can handle a temperature change of 900 degrees. Ti3SiC2 ceramics have the advantage of being chemically resistant, easy to process, and having a relatively low cost. This makes it an ideal material for kiln furnishings.

The excellent properties of spherical aluminum in terms of electrical, thermal, and mechanical properties make it a popular choice for electronic semiconductor packaging.

Tech Co., Ltd. () has over 12 years’ experience in chemical product development and research. You can send us an inquiry if you’re looking for high-quality titanium silicon carbide.

1. What is Ti3SiC2? Titanium Silicon Carbide (Titanium SiC2) is a ceramic material that has all the properties of metals, including electrical conductivity, heat transmission, […]

The Properties And Uses of Boron Carbide Powder

What is the boron carbide property?

Boron carbide powder Also known as black Diamond, this organic substance is a powder with the chemical formula B4C. It’s usually a gray or black color. It is among the three hardest substances known (the two others being diamond and cubic boron-nitride).
Boron carbide looks like a shiny black crystal. Boron carbide has a harder surface than industrial diamonds, but is softer than silicon carbide. Ceramics made of boron-carbide are less fragile than other ceramics.

Boron carbide powder has a high stability to acid. It is also stable in all concentrated and dilute acids or alkali solutions. Boron carbide in an atmosphere is essentially stable below 800degC. The boron oxide that is formed when it oxidizes at a high temperature is lost during the gas phase. This leads to its instabilities and oxidation into carbon dioxide and trioxide.

What uses does boron carburide have?

Boron carbide is a powder with low density and high strength. It also has good chemical stability, and can be used in high-temperature applications. It’s used as a ceramic reinforcing phase, in materials that are resistant to wear, and in armors, neutron absorbers for reactors, and other lightweight products. As boron carbide can be easily manufactured and has a low cost, it is used more than diamonds and cubic boron. It can be used to replace diamond in some areas and is often used for grinding, drilling, and grinding.

Abrasive material
The boron carbide was used as an abrasive coarse material for many years. Due to its high melting point it is not easily cast into artificial items, but can be shaped by melting the powder in high temperatures. Boron carbide powder can be used to polish, grind, drill, and grind hard materials, such as gemstones and cemented carbide.

Coating paint
Boron carbide may also be used on warships or helicopters as a ceramic surface. It is lightweight with the ability to resist armor-piercing bullets.

Nozzle
Due to their high hardness and resistance to wear, boron-carbide nozzles will eventually replace materials like cemented carbide/tungsten and silicon carbide.

Other
Boron carbide powder can also be used for the production of metal borides as well as smelting sodium-boron, boron alloys and special welding.

Tech Co., Ltd. is a professional boron carbide powder Over 12 years in research and development of chemical products. You can contact us for high-quality boron carbide powder. Contact us Send an inquiry.

What is the boron carbide property? Boron carbide powder Also known as black Diamond, this organic substance is a powder with the chemical formula B4C. […]

What Are Silver Pellets?

silver pellets are a form of finely ground silver, typically ranging from 1 to 4 mm. These are often used as an antimicrobial in topical applications and dressings for acute wound care or to supplement a comprehensive wound management program. Silver’s bactericidal action is based on its ability to interfere with the synthesis of bacterial cell membranes and DNA. [1]

Unlike silver coins and bars, which are stamped with a quality stamp, silver granules cannot carry such information. Therefore, it is important to ensure that any silver granules you purchase are labeled and certified. This is especially true if you intend to resell or exchange them.

It is also important to be aware that silver granules may not have the same quality standards as other forms of silver such as jewelry. For example, a large amount of silver granulate sold in the market is actually nickel silver, an inexpensive base metal alloy that combines copper with zinc and/or nickel. This metal will tarnish and should only be soldered with precision equipment and special training. It is a good practice to describe these granules as nickel silver rather than simply “silver.”

Silver has been used for centuries in a variety of products, but research doesn’t support claims that it cures maladies such as tuberculosis, arthritis, or herpes. Furthermore, silver ingested orally can cause the skin and mucous membranes to take on a grayish color (argyria), which isn’t reversible. Because of this, it is important to choose a brand that only sells a silver product with a reputable quality seal such as USP or ConsumerLabs.

silver pellets are a form of finely ground silver, typically ranging from 1 to 4 mm. These are often used as an antimicrobial in topical […]

Aluminum Magnesium Boride BAM is acknowledged as the Slipperiest Material

Aluminum magnesium borate, also known as Al3Mg3B56 or BAM in colloquial terms, is a combination of aluminum magnesium and boron. Its molecular formula nominal is AlMgB14. However, its chemical composition is closer Al0.75Mg0.75B14. This ceramic alloy is known for its high wear resistance, low coefficients of sliding friction (recorded at 0.04 under unlubricated conditions, and 0.02 with lubricated AlMgB14/TiB2 composites). BAM’s orthogonal structure, which consists of four icosahedral B12 unit cells per cell, was first described in 1970. It is common to use a superhard material that has a similar thermal expansion coefficient as other materials such as concrete or steel. Performances in everyday applications of aluminum-magnesium boreide product
Aluminum cabinet ceramic has many benefits, including being resistant to high temperatures, oil, water and impact. It is also durable, affordable, easy-to-clean, and offers a long lifespan.
Environmental protection is the first priority. Even if the cabinet plate is environmentally-friendly, it will still use glue because the entire sheet is based upon particleboard and MDF. There will be formaldehyde in the cabinet panels even if they meet environmental standards.
2. Good performance: not only durable, environmental friendly, and meets waterproof, fireproof, and pest control three requirements. Other functions include resistance to acid, cleaning, good oil resistant, scratch, and more. Cabinets that are not replaceable.
3. Durable. Rugged. Yes, wooden cabinets have a life span of 10 years or less. Ceramic cabinets are at least as old as the house itself, and even more. The main framework of the cabinet has been made out of ceramic tiles, aluminum and is therefore more robust.
The frame of the entire cabinet is made from durable wood.
BAM, the most slippery material on earth
Aluminum magnesium Boride is a material with a unique composition. This gives it a distinct advantage. The material has an extremely low coefficients of friction and excellent hardness.
“Its toughness was discovered accidentally.” Alan Russell, an materials scientist from Ames Iowa State University said, “We had a bad time when we tried to cut, grind or polish it.”
The friction coefficient is less than half that of Teflon. Teflon is known to have a friction coefficient 0.05 while BAM keeps a 0.02! For a reference, steel has a frictional coefficient of 0.16.
This new material, which is available in a thin coating that can be used on a variety of surfaces, offers the same benefits for energy efficiency and longevity as BAM. BAM can be estimated to save US industries 330 trillion kilojoules (or 9 billion kilowatt hours) every year by 2030. That’s equivalent to 179 million dollars in annual savings.
Currently, the mechanical properties of this material are being investigated because it’s not clear why it maintains such dexterity. A material normally only displays characteristics like hardness and low friction. Both phenomena are new and highly prevalent in the material.
BAM is a solution to the worst nightmare for every engineer: friction. Friction reduces the performance of a machine, uses a lot of power, and increases the complexity of its design. BAM is able to relieve the most stress, by providing a material that is incredibly hard, and allows for the machine’s length to be increased.
(aka. Technology Co. Ltd., a global leader in the manufacture and supply of Aluminum Magnesium Boride Powder with over 12 year’s experience is a trusted supplier and manufacturer. Currently, we have developed a number of materials. Aluminum magnesium boride manufactured by our company is high in purity, has fine particles and contains low impurities. To get the most recent price on Aluminum magnesium Boride powder, please send us an e-mail or click the desired products to send an enquiry.

Aluminum magnesium borate, also known as Al3Mg3B56 or BAM in colloquial terms, is a combination of aluminum magnesium and boron. Its molecular formula nominal is […]

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