CM7039 Titanium Aluminum Nitride MAX Phase Powder #newarrival Titanium Aluminum Nitride (TiAlN) MAX phase powder is a high-performance material that combines the best attributes of ceramics and metals. It exhibits excellent thermal stability, high hardness, and resistance to oxidation, making it suitable for demanding industrial applications such as cutting tools, coatings, and aerospace components.
Stanford Advanced Materials
采矿业
Lake Forest,California 1,180 位关注者
Stanford Advanced Materials is a highly experienced supplier of 3,000+ advanced materials to key industry players.
关于我们
Established in 1994, Stanford Advanced Materials (SAM) is a global supplier of a series of pure metals, alloys, ceramics and minerals. SAM specializes in both high-purity chemicals for research institutes and technical grade materials for advanced industries. All our materials are fully customizable and conform to widely-accepted standards. We frequently offer the latest available materials at competitive prices to a range of industries including pharmacy, capacitor, metallurgy, semiconductor and aviation.
- 网站
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https://www.samaterials.com
Stanford Advanced Materials的外部链接
- 所属行业
- 采矿业
- 规模
- 201-500 人
- 总部
- Lake Forest,California
- 类型
- 上市公司
- 创立
- 1994
- 领域
- pure metal、refractory metal、ceramics和rare earth elements
地点
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主要
获取路线
23661 Birtcher Dr.
US,California,Lake Forest,92630
Stanford Advanced Materials员工
动态
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Lanthanum: Element Properties and Uses #periodictable #lanthanum Lanthanum is a soft, silvery-white rare earth metal known for its high reactivity. It is used in hybrid vehicle batteries, optical lenses, catalysts, and advanced ceramics due to its excellent electrical and optical properties.
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Unlock the power of cobalt—from its elemental roots to its cutting-edge uses in tech, energy, and medicine! ?????? Learn how this dynamic material drives advancements in batteries, aerospace engineering, and healthcare solutions. ???? #Cobalt #TechRevolution
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Discover the fascinating journey of chromium—from its role as a versatile element to its wide-ranging applications in industries like metallurgy, electronics, and healthcare! ??? Learn how this essential material strengthens stainless steel, enhances coatings, and even supports medical treatments. Dive into the science and innovation behind chromium! ???? #MaterialScience #Chromium #Sustainability
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Top 6 Medical Applications of Nitinol #medical #nitinol #stent #bone The evolution of medical technology has significantly improved patient outcomes, and one of the most transformative materials in modern healthcare is Nitinol. This article is going to cover the top six medical applications of Nitinol, highlighting its advantages and real-world case studies that demonstrate its effectiveness.
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SS6513 316L Stainless Steel Foil/Sheet #newarrival 316L Stainless Steel Foil/Sheet?is high-performance, corrosion-resistant materials made from low-carbon austenitic stainless steel.
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RU7029 Ruthenium Rod #newarrival #ruthenium Ruthenium Rod?is known for its remarkable resistance to corrosion and high melting point, making it an ideal material for high-temperature applications and catalytic processes. Stanford Advanced Materials offers high-quality Ruthenium products with exceptional customer service and competitive pricing.
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Toolbox #conversion #calculator #chemical SAM's Toolbox contains helpful conversion tools, charts, and tables. Please follow the links to view more specific information. We offer Conversion Table & Unit Converters, Calculators, and Chemical Property Chart.
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Volume Conversion Table #conversiontable Converting between liters and cubic feet involves knowing the conversion factor. One liter is approximately equal to 0.0353 cubic feet. This conversion is vital for applications that require switching between metric and imperial systems.
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Particle Size Conversion Table #particlesize #conversion Understanding the size of particles in various materials is essential across numerous industries, including pharmaceuticals, materials science, and manufacturing. The?Particle Size Conversion Table?provides a comprehensive reference to convert particle sizes between microns and mesh, facilitating quick and accurate comparisons.