[{"data":1,"prerenderedAt":549},["ShallowReactive",2],{"gql:data:ThB3uqEPiJSXDFZZbjhweRCOUOI5Gh25x-LxZLtB0d4":3,"gql:data:DTz8w1YbWvIQeui-2NWlI5wEW9Qrwmw8nDq9aedUbC0":19,"gql:data:t_JZJG-2apT0ijJkgmPkzo7n_rzNtNlevf9GeIE2f5U":99},{"generalOptions":4},{"generalOptionsField":5},{"leadRequired":6,"ethicCode":7,"ethicCodeEn":10,"accessibilityCertification":13},true,{"node":8},{"link":9},"https://dashboard.pometon.com/codice-etico-pometon-spa-2/",{"node":11},{"link":12},"https://dashboard.pometon.com/code-of-conduct-pometon-spa-3/",{"node":14},{"databaseId":15,"title":16,"slug":17,"link":18},962,"2025 _ Dichiarazione accessibilita pometoncom","2025-_-dichiarazione-accessibilita-pometoncom","https://dashboard.pometon.com/2025-_-dichiarazione-accessibilita-pometoncom/",{"caseStudy":20},{"caseStudyId":21,"slug":22,"title":23,"featuredImage":24,"caseStudiesFields":32,"seo":88,"translations":93},2551,"circular-recycling-of-metal-powders-for-additive-manufacturing","Circular Recycling of Metal Powders for Additive Manufacturing",{"node":25},{"altText":26,"srcSet":27,"sourceUrl":28,"fields":29},"","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_hero-300x168.jpg 300w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_hero-1024x575.jpg 1024w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_hero-768x431.jpg 768w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_hero-1536x862.jpg 1536w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_hero-2048x1150.jpg 2048w","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_hero-scaled.jpg",{"altText":30},{"it":31,"en":31},null,{"application":33,"intro":39,"firstText":40,"twoImages":43,"fullImage":56,"secondText":62,"sliderImage":65,"productsUsed":82,"relatedProjects":31},{"nodes":34},[35],{"databaseId":36,"name":37,"slug":38},109,"Additive manufacturing","additive-manufacturing","\u003Cp>Pometon has developed a circular recycling route that combines two key technologies, \u003Cstrong>Thermal Electrode Recycler (TER)\u003C/strong> and \u003Cstrong>Electrode Inert Gas Atomization (EIGA)\u003C/strong>, to address the growing demands for sustainability, quality, and waste reduction in the Additive Manufacturing sector.\u003C/p>\n",{"text":41,"title":42},"\u003Cp>The production and use of powders for Additive Manufacturing inevitably generate waste materials, such as off‑spec fractions, unused powders, support structures, and machining residues. In the case of high‑value alloys, particularly titanium‑based alloys, these materials represent a significant challenge both from an economic and an environmental perspective.\u003C/p>\n\u003Cp>Traditional recovery technologies are often inefficient or unsuitable for maintaining the high quality standards required by Additive Manufacturing. Reactive alloys are also particularly sensitive to contamination and oxidation, making direct reuse complex without compromising performance.\u003C/p>\n\u003Cp>The challenge was therefore to develop a reliable and scalable industrial solution capable of transforming waste into new high‑quality raw material suitable for the most demanding AM processes.\u003C/p>\n\u003Cp>The process begins with the consolidation of metallic scrap and AM residues through vacuum induction sintering in the TER system. This step makes it possible to transform loose powders, support structures, and machining residues into sintered bars with controlled density, specifically optimized for remelting.\u003C/p>\n\u003Cp>The resulting bars are then atomized using EIGA technology, a “crucible‑free” process that avoids any contact with refractory materials. This ensures the production of highly pure spherical metal powders, preserving the chemical integrity required for Additive Manufacturing.\u003C/p>\n\u003Cp>The process has been validated on several titanium alloys commonly used in AM processes.\u003C/p>\n\u003Cp>The powders obtained from recycled material show:\u003C/p>\n\u003Cul>\n\u003Cli>highly spherical morphology\u003C/li>\n\u003Cli>absence of internal defects\u003C/li>\n\u003Cli>chemical composition compliant with AM specifications\u003C/li>\n\u003Cli>performance comparable to powders produced from virgin raw material\u003C/li>\n\u003C/ul>\n\u003Cp>This confirms the feasibility of a complete recycling cycle without compromising material quality.\u003C/p>\n","From waste material to new high performance AM powders",{"smallImage":44,"bigImage":50},{"node":45},{"altText":26,"srcSet":46,"sourceUrl":47,"fields":48},"https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_2-173x300.jpg 173w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_2-589x1024.jpg 589w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_2.jpg 630w","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_2.jpg",{"altText":49},{"it":31,"en":31},{"node":51},{"altText":26,"srcSet":52,"sourceUrl":53,"fields":54},"https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_1-300x254.jpg 300w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_1-1024x868.jpg 1024w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_1-768x651.jpg 768w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_1.jpg 1292w","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_1.jpg",{"altText":55},{"it":31,"en":31},{"node":57},{"altText":26,"srcSet":58,"sourceUrl":59,"fields":60},"https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_3-300x168.jpg 300w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_3-1024x574.jpg 1024w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_3-768x431.jpg 768w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_3-1536x861.jpg 1536w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_3.jpg 1953w","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_3.jpg",{"altText":61},{"it":31,"en":31},{"title":63,"text":64},"A scalable circular solution, beyond recycling","\u003Cp>The TER–EIGA route represents a concrete and scalable industrial solution for the circular economy in Additive Manufacturing.\u003C/p>\n\u003Cp>The main advantages include:\u003C/p>\n\u003Cul>\n\u003Cli>significant reduction of metallic waste\u003C/li>\n\u003Cli>improved utilization of high‑value raw materials\u003C/li>\n\u003Cli>reduced environmental impact of the production process\u003C/li>\n\u003Cli>direct integration into industrial powder production lines\u003C/li>\n\u003Cli>consistent quality for high‑performance AM applications\u003C/li>\n\u003C/ul>\n\u003Cp>Beyond recycling, the flexibility of the TER system also enables the development of \u003Cstrong>advanced composite powders\u003C/strong>. By combining metallic matrices and ceramic reinforcements prior to atomization, it is possible to obtain innovative materials with tailored properties.\u003C/p>\n\u003Cp>This technology opens new opportunities for applications in highly demanding sectors such as aerospace, motorsport, and advanced industry, where high performance and sustainability are increasingly central.\u003C/p>\n",{"nodes":66},[67,72,77],{"altText":26,"sourceUrl":68,"srcSet":69,"fields":70},"https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_1.jpg","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_1-225x300.jpg 225w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_1-769x1024.jpg 769w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_1-768x1023.jpg 768w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_1.jpg 822w",{"altText":71},{"it":31,"en":31},{"altText":26,"sourceUrl":73,"srcSet":74,"fields":75},"https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_2.jpg","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_2-300x287.jpg 300w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_2-1024x981.jpg 1024w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_2-768x736.jpg 768w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_2.jpg 1143w",{"altText":76},{"it":31,"en":31},{"altText":26,"sourceUrl":78,"srcSet":79,"fields":80},"https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_3.jpg","https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_3-300x245.jpg 300w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_3-1024x837.jpg 1024w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_3-768x628.jpg 768w, https://dashboard.pometon.com/wp-content/uploads/2026/04/casi_studio_riciclo_polveri_metalliche_gallery_3.jpg 1340w",{"altText":81},{"it":31,"en":31},[83],{"product":84},{"nodes":85},[86],{"databaseId":87},575,{"title":89,"metaDesc":90,"opengraphTitle":89,"opengraphDescription":90,"opengraphType":91,"twitterDescription":26,"twitterTitle":26,"opengraphImage":92},"Circular Recycling of Metal Powders for Additive Manufacturing | Pometon","Discover Pometon’s TER–EIGA circular route: transforming metal scrap and AM residues into high-purity spherical powders. Scalable solutions for titanium alloys and high-performance sectors.","article",{"sourceUrl":28},[94],{"slug":95,"language":96},"riciclo-circolare-di-polveri-metalliche-per-ladditive-manufacturing",{"code":97,"slug":98},"IT","it",{"products":100},{"nodes":101},[102,119,131,140,155,168,180,191,203,216,228,240,252,264,276,292,304,316,328,340,361,376,389,407,427,444,459,473,485,497,509,521,537],{"databaseId":103,"title":104,"productsFields":105,"language":113,"productCategories":115},581,"Fe-Cr powders",{"description":106,"application":107},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Produced by water atomisation of the molten alloy, these high-strength powders were developed for the production of camshaft cams, offering an excellent balance between compressibility and hardenability. Belonging to the product family are: FerAlloy Cr4, FerAlloy Cr8.\u003C/span>\u003C/p>\n",{"nodes":108},[109],{"databaseId":110,"name":111,"slug":112},79,"Sintering","sintering",{"slug":114},"en",{"nodes":116},[117],{"databaseId":118},41,{"databaseId":120,"title":121,"productsFields":122,"language":127,"productCategories":128},580,"Copper powder for vehicles and electrical fields",{"description":123,"application":124},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">A copper powder developed for the manufacture of sintered copper components with good conductivity properties. This innovation represents a potential breakthrough for press and sintering technology in the e-mobility sector.\u003C/span>\u003C/p>\n",{"nodes":125},[126],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":129},[130],{"databaseId":118},{"databaseId":132,"title":133,"productsFields":134,"language":136,"productCategories":137},579,"Copper powder for solar panels",{"description":135,"application":31},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">The conduction of solar energy in solar panels is made possible by thin lines of silver powder contained in a paste. Pometon has developed a copper powder that, after silver coating, can partially or fully replace the silver powder used in solar panel applications, optimising efficiency and performance.\u003C/span>\u003C/p>\n",{"slug":114},{"nodes":138},[139],{"databaseId":118},{"databaseId":141,"title":142,"productsFields":143,"language":151,"productCategories":152},578,"Pure iron",{"description":144,"application":145},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">We produce pure iron powder from a particular source of iron scrap, applying principles of circular economy. This solution achieves a purity of 99.8%, with no traces of dangerous elements. Ideal for specialised sectors including chemical applications (catalysts and synthetic precursors), magnetic applications, animal feed and biological processes.\u003C/span>\u003Cspan style=\"font-weight: 400;\">\u003Cbr />\n\u003C/span>\u003C/p>\n",{"nodes":146},[147],{"databaseId":148,"name":149,"slug":150},103,"Chemistry","chemistry",{"slug":114},{"nodes":153},[154],{"databaseId":118},{"databaseId":156,"title":157,"productsFields":158,"language":163,"productCategories":164},577,"Cobalt alloys",{"description":159,"application":160},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Spherical powders of cobalt alloys, obtained by gas (argon) atomisation using VIGA and EIGA technology. Suitable for biomedical, dental, power generation and magnetic applications. Belonging to the family are: CoCr and CoFe alloys.\u003C/span>\u003C/p>\n",{"nodes":161},[162],{"databaseId":36,"name":37,"slug":38},{"slug":114},{"nodes":165},[166],{"databaseId":167},62,{"databaseId":169,"title":170,"productsFields":171,"language":176,"productCategories":177},576,"Nickel and alloys",{"description":172,"application":173},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Spherical powders of pure nickel and nickel alloys, obtained by gas (argon) atomisation using VIGA and EIGA technology. Suitable for high temperature applications such as aerospace, nuclear, energy and shape memory alloys. Belonging to the family are: Pure Ni, Nitinol.\u003C/span>\u003C/p>\n",{"nodes":174},[175],{"databaseId":36,"name":37,"slug":38},{"slug":114},{"nodes":178},[179],{"databaseId":167},{"databaseId":87,"title":181,"productsFields":182,"language":187,"productCategories":188},"Titanium and alloys",{"description":183,"application":184},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Spherical powders of pure titanium and titanium alloys, obtained by gas (argon) atomisation using EIGA technology. Suitable for biomedical, racing and aerospace applications. Belonging to the family are: Pure Ti, Ti6Al4v-ELI, Ti-β, Ti-ɣ.\u003C/span>\u003C/p>\n",{"nodes":185},[186],{"databaseId":36,"name":37,"slug":38},{"slug":114},{"nodes":189},[190],{"databaseId":167},{"databaseId":192,"title":193,"productsFields":194,"language":199,"productCategories":200},574,"Copper and alloys",{"description":195,"application":196},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Spherical powders of pure copper and copper alloys, obtained by gas (argon) atomisation using VIGA and EIGA technology. Suitable for applications where high thermal and electrical conductivity is required. Belonging to the family are: Pure Cu and CuCrZr.\u003C/span>\u003C/p>\n",{"nodes":197},[198],{"databaseId":36,"name":37,"slug":38},{"slug":114},{"nodes":201},[202],{"databaseId":167},{"databaseId":204,"title":205,"productsFields":206,"language":211,"productCategories":212},573,"409 CB stainless steel powder",{"description":207,"application":208},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Niobium-stabilised ferritic stainless steel with 11% chromium content for high temperature applications up to 600º C. These elements give the alloy high mechanical strength, fatigue resistance and corrosion resistance even at high temperatures. Mechanical characteristics, mainly cold deformability and mechanical resistance to bending, can be improved by annealing.\u003C/span>\u003C/p>\n",{"nodes":209},[210],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":213},[214],{"databaseId":215},60,{"databaseId":217,"title":218,"productsFields":219,"language":224,"productCategories":225},572,"434 and 434 CB stainless steel powders",{"description":220,"application":221},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Non-toughenable ferritic stainless steels containing 17% chromium and 1% molybdenum. The CB grade is niobium-stabilised. These elements give the alloy high mechanical strength, fatigue resistance and corrosion resistance. Mechanical characteristics, mainly cold deformability and mechanical resistance to bending, can be improved by annealing.\u003C/span>\u003C/p>\n",{"nodes":222},[223],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":226},[227],{"databaseId":215},{"databaseId":229,"title":230,"productsFields":231,"language":236,"productCategories":237},571,"430 L stainless steel powder",{"description":232,"application":233},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Ferritic stainless steel with high chromium and low carbon content, good corrosion resistance in moderately aggressive environments and oxidation resistance up to 800°C. Mechanical properties are restored by annealing. Customisable by particle size distribution, chemical composition and mixing with lubricants.\u003C/span>\u003C/p>\n",{"nodes":234},[235],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":238},[239],{"databaseId":215},{"databaseId":241,"title":242,"productsFields":243,"language":248,"productCategories":249},570,"410 L stainless steel powder",{"description":244,"application":245},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Ferritic stainless steel with low chromium and carbon content, high abrasion resistance and limited corrosion resistance in more corrosive applications. Mechanical properties are restored by annealing. Customisable by particle size distribution, chemical composition and mixing with lubricants.\u003C/span>\u003C/p>\n",{"nodes":246},[247],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":250},[251],{"databaseId":215},{"databaseId":253,"title":254,"productsFields":255,"language":260,"productCategories":261},569,"316 L stainless steel powder",{"description":256,"application":257},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Stainless steel powder (Cr-Ni-Mo) with low carbon content for applications requiring high corrosion resistance. Molybdenum confers intergranular resistance at high temperatures, and stability in the presence of chloride ions and in solutions of reducing acids. Customisable by particle size, chemical composition and lubricants.\u003C/span>\u003C/p>\n",{"nodes":258},[259],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":262},[263],{"databaseId":215},{"databaseId":265,"title":266,"productsFields":267,"language":272,"productCategories":273},568,"304 L stainless steel powder",{"description":268,"application":269},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Stainless steel powder (Cr-Ni) with low carbon content, ideal for welding applications. The austenitic microstructure ensures resistance to intergranular corrosion. Customisable by particle size, chemical composition and mixing with lubricants.\u003C/span>\u003C/p>\n",{"nodes":270},[271],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":274},[275],{"databaseId":215},{"databaseId":277,"title":278,"productsFields":279,"language":287,"productCategories":288},567,"Graninox CrH stainless steel grits",{"description":280,"application":281},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Angular stainless steel grits with a martensitic structure with 28% Chromium and lower Manganese and Silicon content. Characterised by its high abrasiveness, it is suitable for blasting steel and non-ferrous metals where high speed processing of hard surfaces is required. Valid alternative to aluminium oxides, garnet and corundum.\u003C/span>\u003C/p>\n",{"nodes":282},[283],{"databaseId":284,"name":285,"slug":286},101,"Metalworking","metalworking",{"slug":114},{"nodes":289},[290],{"databaseId":291},58,{"databaseId":293,"title":294,"productsFields":295,"language":300,"productCategories":301},566,"Graninox Cr-S stainless steel granules",{"description":296,"application":297},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Stainless steel granules with a martensitic structure with 14% Chrome and lower Nickel and Silicon content, mainly used in the automotive field. Characterised by medium hardness and corrosion resistance. Especially suitable for blasting aluminium, brass, copper, alloys and stainless steel.\u003C/span>\u003C/p>\n",{"nodes":298},[299],{"databaseId":284,"name":285,"slug":286},{"slug":114},{"nodes":302},[303],{"databaseId":291},{"databaseId":305,"title":306,"productsFields":307,"language":312,"productCategories":313},565,"Graninox Cr stainless steel granules",{"description":308,"application":309},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Stainless steel granules with a martensitic structure with 14% Chrome and lower Nickel and Silicon content. Characterised by medium hardness and corrosion resistance. Especially suitable for blasting aluminium, brass, copper, alloys and stainless steel requiring more aggressive processing.\u003C/span>\u003C/p>\n",{"nodes":310},[311],{"databaseId":284,"name":285,"slug":286},{"slug":114},{"nodes":314},[315],{"databaseId":291},{"databaseId":317,"title":318,"productsFields":319,"language":324,"productCategories":325},564,"Graninox CrNi stainless steel granules",{"description":320,"application":321},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Stainless steel granules with an austenitic structure with 18-8% Chromium-Nickel and lower Manganese and Silicon content. Characterised by high corrosion resistance. Especially suitable for blasting aluminium, brass, copper, alloys and stainless steel requiring less aggressive processing.\u003C/span>\u003C/p>\n",{"nodes":322},[323],{"databaseId":284,"name":285,"slug":286},{"slug":114},{"nodes":326},[327],{"databaseId":291},{"databaseId":329,"title":330,"productsFields":331,"language":336,"productCategories":337},563,"Graninox CrLN stainless steel granules",{"description":332,"application":333},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Stainless steel granules with an austenitic structure with 18% chromium and lower silicon content, characterised by good hardness and corrosion resistance. Especially suitable for blasting aluminium, brass, copper, alloys and stainless steel.\u003C/span>\u003C/p>\n",{"nodes":334},[335],{"databaseId":284,"name":285,"slug":286},{"slug":114},{"nodes":338},[339],{"databaseId":291},{"databaseId":341,"title":342,"productsFields":343,"language":356,"productCategories":357},562,"Brass powder",{"description":344,"application":345},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by water atomisation, characterised by irregular shapes from 500 to 45 microns. Used in sintering, it ensures good oxidation resistance for mechanical parts. In friction applications, it is valued for its thermal conductivity characteristics and lubricating effect. Product families: Brass CuZn20 and Brass CuZn30, used in the sintering of non-ferrous materials, friction, filler.\u003C/span>\u003C/p>\n",{"nodes":346},[347,351,355],{"databaseId":348,"name":349,"slug":350},93,"Diamond tools","diamond-tools",{"databaseId":352,"name":353,"slug":354},85,"Friction","friction-en",{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":358},[359],{"databaseId":360},56,{"databaseId":362,"title":363,"productsFields":364,"language":372,"productCategories":373},561,"Bronze powder",{"description":365,"application":366},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by water atomisation, characterised by irregular morphology. The wide range of particle sizes makes the product extremely suitable for all fields of application: sintering, friction, diamond tools, resin and plastic fillers, welding and brazing. Belonging to the product family are: Bronze CuSn10-15-20, Bronze CuSn10 Zn2, Bronze CuSn4, Bronze CuSn40, Bronze CuSn9, Bronze U 10/20.\u003C/span>\u003C/p>\n",{"nodes":367},[368,369,370,371],{"databaseId":110,"name":111,"slug":112},{"databaseId":352,"name":353,"slug":354},{"databaseId":348,"name":349,"slug":350},{"databaseId":284,"name":285,"slug":286},{"slug":114},{"nodes":374},[375],{"databaseId":360},{"databaseId":377,"title":378,"productsFields":379,"language":385,"productCategories":386},560,"Tin powder",{"description":380,"application":381},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by air atomisation from high-purity ingots. Characterised by nodular shapes, it can be used in various applications, such as friction, chemicals and jewellery. Belonging to the product family are: Tin Sn 106, Tin Sn 75F, Tin Sn IMP, high-purity powders used as blend components for bronze sintering, friction, diamond tools, fillers.\u003C/span>\u003C/p>\n",{"nodes":382},[383,384],{"databaseId":348,"name":349,"slug":350},{"databaseId":352,"name":353,"slug":354},{"slug":114},{"nodes":387},[388],{"databaseId":360},{"databaseId":390,"title":391,"productsFields":392,"language":403,"productCategories":404},559,"Zinc powder",{"description":393,"application":394},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by air atomisation from high-purity ingots. Characterised by nodular shapes, it can be used in various applications, such as friction, chemicals and jewellery. Belonging to the product family are: Zinc Zn S, Zinc Zn SSS, Zinc Zn IMP, used for friction applications, diamond tools, resin fillers, pigments, chemistry, jewellery, brazing.\u003C/span>\u003C/p>\n",{"nodes":395},[396,397,398,399],{"databaseId":148,"name":149,"slug":150},{"databaseId":348,"name":349,"slug":350},{"databaseId":352,"name":353,"slug":354},{"databaseId":400,"name":401,"slug":402},95,"Jewellery","jewellery",{"slug":114},{"nodes":405},[406],{"databaseId":360},{"databaseId":408,"title":409,"productsFields":410,"language":423,"productCategories":424},558,"Reduced electrolytic copper powders",{"description":411,"application":412},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by electrolysis and reduction processes, characterised by dendritic morphology and high purity. Belonging to the category are: Copper Cu SA-SB-SE-SF (powder for metallurgical corrections, diamond tools, friction, chemistry, soldering, ferrous and non-ferrous sintering, jewellery, carbon brushes), Copper G-GG (powder for metallurgical corrections, friction, chemistry, soldering, carbon brushes).\u003C/span>\u003C/p>\n",{"nodes":413},[414,418,419,420,421,422],{"databaseId":415,"name":416,"slug":417},87,"Carbon brushes","carbon-brushes-en",{"databaseId":148,"name":149,"slug":150},{"databaseId":348,"name":349,"slug":350},{"databaseId":352,"name":353,"slug":354},{"databaseId":400,"name":401,"slug":402},{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":425},[426],{"databaseId":360},{"databaseId":428,"title":429,"productsFields":430,"language":440,"productCategories":441},557,"Electrolytic copper powders",{"description":431,"application":432},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Produced through electrolysis, characterised by dendritic morphology and high purity. They find use in various metallurgical applications and prove versatile in sintering processes. Belonging to the category is: Copper Cu EL/LN/LP/LT for diamond tool applications, friction, carbon brushes, filler for polymer composites.\u003C/span>\u003C/p>\n",{"nodes":433},[434,435,436,437,438,439],{"databaseId":415,"name":416,"slug":417},{"databaseId":148,"name":149,"slug":150},{"databaseId":348,"name":349,"slug":350},{"databaseId":352,"name":353,"slug":354},{"databaseId":400,"name":401,"slug":402},{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":442},[443],{"databaseId":360},{"databaseId":445,"title":446,"productsFields":447,"language":455,"productCategories":456},556,"Atomised copper powders",{"description":448,"application":449},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Produced through a water atomisation process from qualified raw material, they are used for the production of sintered components and other metallurgical applications. Belonging to the family are: Copper Cu 100-150-200 Mesh (powder for sintering), Copper Cu W 425/75, Cu W 212M, Cu W 60M (for friction), Cu W 63/3.3 (for diamond tools and pigments).\u003C/span>\u003C/p>\n",{"nodes":450},[451,452,453,454],{"databaseId":148,"name":149,"slug":150},{"databaseId":348,"name":349,"slug":350},{"databaseId":352,"name":353,"slug":354},{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":457},[458],{"databaseId":360},{"databaseId":460,"title":461,"productsFields":462,"language":468,"productCategories":469},555,"Iron-Phosphorus Powders",{"description":463,"application":464},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Pre-alloyed powders, specifically designed for sinter applications, capable of ensuring high mechanical properties at lower sintering temperatures. Belonging to the category is: FerSint P, suitable for sintering ferrous components where magnetic properties are required.\u003C/span>\u003C/p>\n",{"nodes":465},[466,467],{"databaseId":110,"name":111,"slug":112},{"databaseId":348,"name":349,"slug":350},{"slug":114},{"nodes":470},[471],{"databaseId":472},54,{"databaseId":474,"title":475,"productsFields":476,"language":481,"productCategories":482},554,"Pre-alloyed and diffusion bonded",{"description":477,"application":478},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Low alloyed iron powders produced through homogenisation and diffusion bonding, characterised by high strength and homogeneity. Suitable for sintering ferrous components with good mechanical properties. Product families: FerAlloy ST1, FerAlloy ST2, FerAlloy ST3.\u003C/span>\u003C/p>\n",{"nodes":479},[480],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":483},[484],{"databaseId":472},{"databaseId":486,"title":487,"productsFields":488,"language":493,"productCategories":494},553,"Pre-alloyed",{"description":489,"application":490},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Powders obtained by water atomisation of melted Iron-Copper or Iron-Molybdenum alloys, suitable for sintering applications of ferrous components. Pre-alloyed powders do not undergo further diffusion bonding treatments. Product families: FerAlloy master Cu8, Feralloy M Cu20, FerAlloy ST0, FerAlloy ST0.85.\u003C/span>\u003C/p>\n",{"nodes":491},[492],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":495},[496],{"databaseId":472},{"databaseId":498,"title":499,"productsFields":500,"language":505,"productCategories":506},552,"Diffusion bonded",{"description":501,"application":502},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Low alloy ferrous alloyed powders suitable for sintering applications, produced through diffusion bonding, a carefully controlled process to ensure that the powder maintains compressibility, flowability and high homogeneity. Product families: FerAlloy DB1, FerAlloy DB2, FerAlloy DB2 SM, FerAlloy DB3, FerAlloy CU10.\u003C/span>\u003C/p>\n",{"nodes":503},[504],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":507},[508],{"databaseId":472},{"databaseId":510,"title":511,"productsFields":512,"language":517,"productCategories":518},551,"Ferrous premixes",{"description":513,"application":514},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Iron and iron alloyed premixes designed to meet different customisation needs, offering over 100 ready-to-use formulations for sintering ferrous parts. Developed through the co-design of blends and achieved through a production process of mixing and homogenisation. Belonging to the product family are: PMX 100-200-300.\u003C/span>\u003C/p>\n",{"nodes":515},[516],{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":519},[520],{"databaseId":472},{"databaseId":522,"title":523,"productsFields":524,"language":533,"productCategories":534},550,"Reduced iron powders",{"description":525,"application":526},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by water atomisation and reduction, characterised by irregular morphologies and high purity. Customisable according to their application. Belonging to the family are: Ferblast RI (powder for soft blasting), Ferchim RI (powder for chemical use), Ferelet RI (powder for welding), Fermiscres RI (powder for filled resins), FerSint RI (powder for sintering), Fertag RI (powder for flame cutting), Selefer (powder for seed selection).\u003C/span>\u003C/p>\n",{"nodes":527},[528,529,530,531,532],{"databaseId":148,"name":149,"slug":150},{"databaseId":348,"name":349,"slug":350},{"databaseId":352,"name":353,"slug":354},{"databaseId":284,"name":285,"slug":286},{"databaseId":110,"name":111,"slug":112},{"slug":114},{"nodes":535},[536],{"databaseId":472},{"databaseId":538,"title":539,"productsFields":540,"language":545,"productCategories":546},549,"Not reduced iron powders",{"description":541,"application":542},"\u003Cp>\u003Cspan style=\"font-weight: 400;\">Obtained by water atomisation, they are characterised by irregular morphologies and high purity. Customisable according to their application. Belonging to the family are: Carrier (powder for photocopiers), Ferblast MT (powder for soft blasting), Ferchim MT (powder for chemical uses), Ferelet MT (powder for welding), Ferilev MT (powder for magnetic detection), Fertag MT (powder for flame cutting processes).\u003C/span>\u003C/p>\n",{"nodes":543},[544],{"databaseId":284,"name":285,"slug":286},{"slug":114},{"nodes":547},[548],{"databaseId":472},1777550964405]