-
CoCrMoパウダーCoCrMo粉末の概要 CoCrMoはコバルト-クロム-モリブデン合金粉末で、耐摩耗性と生体適合性を必要とするバイオメディカル、歯科、航空宇宙、産業用途の金属積層造形に広く使用されている。この記事では、組成、特性、AMプロセスパラメータ、用途、仕様、サプライヤー、取り扱い、検査、比較、長所と短所、FAQを網羅したCoCrMo粉末の詳細ガイドを提供します。主な情報は、参照しやすい表で示されています。CoCrMo粉末の組成 CoCrMo合金粉末の組成は以下の通り:元素 重量 % 目的 コバルト 58-69 マトリックス元素、生体適合性 クロム 26-30 耐食性、耐摩耗性 モリブデン 5-7 強度、耐摩耗性 カーボン 0.05-0.35 炭化物元 ケイ素 1 最大 脱酸剤 マンガン 1 最大 脱酸剤 鉄 0.75 最大 汚染限界...
-
316L ステンレススチール粉Overview of 316L Stainless Steel Powder 316L is an austenitic stainless steel powder widely used in additive manufacturing to produce corrosion resistant parts with good mechanical properties and weldability. This article provides a detailed guide to 316L powder. Key aspects covered include composition, properties, AM process parameters, applications, specifications, suppliers, handling, inspection methods, comparisons to alternatives, pros and cons, and FAQs. Tables are used to present information in an easy-to-reference format. Composition of 316L Stainless Steel Powder The composition of 316L stainless steel powder is: Element Weight % Purpose Iron Balance Principal matrix element Chromium 16-18 Corrosion resistance Nickel 10-14 Austenite stabilizer Molybdenum 2-3 Corrosion resistance Manganese <2 Deoxidizer Silicon…
-
17-4PH Stainless Steel PowderOverview of 17-4PH Stainless Steel Powder 17-4PH is a precipitation hardening stainless steel powder widely used in additive manufacturing across aerospace, medical, automotive, and general engineering sectors. It offers an excellent combination of high strength, good corrosion resistance, and weldability. This article provides a detailed guide to 17-4PH powder covering composition, properties, AM process parameters, applications, specifications, suppliers, handling, inspection, comparisons, pros and cons, and FAQs. Key information is presented in easy-to-reference tables. Composition of 17-4PH Stainless Steel Powder The composition of 17-4PH powder is: Element Weight % Purpose Iron Balance Principal matrix element Chromium 15 – 17.5 Oxidation resistance Copper 3 – 5 Precipitation hardening Nickel 3 – 5…
-
PREP 耐火性チタン合金粉末PREP耐火チタン合金粉末の概要 PREP(プラズマ回転電極プロセス)合金は、極端な温度で優れた機械的特性を必要とする部品の付加製造用に設計された高性能耐火チタン合金粉末です。この記事では、PREPチタン合金粉末の組成、特性、印刷パラメータ、アプリケーション、仕様、サプライヤー、取り扱い、検査、比較、長所と短所、FAQを網羅した包括的なガイドを提供します。定量的な情報は参照しやすい表で示されています。PREPチタン合金粉末の組成 PREP合金は様々な溶質元素を含む複雑な組成を持っています:元素 重量 % 目的 チタン バランス 主基本元素 アルミニウム 5 - 7 固溶体強化剤 スズ 1 - 3 固溶体強化剤 ジルコニウム 0.5 - 2...
-
Ti-6Al-4Vチタン合金粉末Low oxygen pure titanium powder is the basis of powder metallurgy titanium production, is also one of the company£ªs leading products. At present, the company through HDH process, and oxygen control technology, the production of high-end ultra-fine low-oxygen pure Titanium Alloy Powder in the international leading position in the indicators, with the characteristics of ultrafine powder size, ultra-low oxygen content, low impurities, to achieve the large-scale production of high-end low-oxygen pure titanium powder. It can produce a variety of titanium powder products, such as 150Ã×m, 75Ã×m, 45Ã×m, 10Ã×m, 3Ã×m and so on, with oxygen content reduced by 50% compared with conventional commercial products. The high-end ultra-fine low-oxygen pure titanium powder…
-
AlSiMg PowderOur company£ªs gas atomized AlSiMg powder, good sphericity, low oxygen content, good fluidity.at present, aluminum alloys used in metal 3D printing mainly include AlSi12 and AlSi10Mg,they are lightweight additive metal powders with good thermal properties. It can be applied to thin-wall parts such as heat exchangers and other automotive parts, and also can be applied to aerospace and aerospace industrial grade prototype and production parts; The silicon/magnesium combination gives aluminum alloy strength and hardness, making it suitable for thin-walled and complex geometries, especially in applications with good thermal properties and low weight. Due to its superior performance of light weight and high strength, magnesium aluminum alloy has been widely used…
-
H13 Alloy Steel Powder For 3D PrintingOur nitrogen atomized H13 alloy steel powder has good hardenability, thermal strength, wear resistance and high impact toughness, thermal fatigue, widely used in the manufacture of hot work molds. Wear is one of the main failure modes of H13 steel hot-working die. Improving the surface wear resistance of H13 steel is an effective way to improve the life of die. In this paper, the process parameters and microstructure properties of cemented carbide coating prepared on H13 steel by vacuum powder sintering were studied. H13 steel matrix was prepared by laser additive manufacturing technology, and Ni/WC composite coating was coated by laser cladding. The hardness of the coating was 16% higher…