Introducing a case study using MTA9100 metal powder in printed circuit sensors.
We would like to introduce application examples of the iron-copper alloy 'MTA9100 Metal Powder', developed by MTA Alloy Co., Ltd., which possesses both thermal conductivity and electrical conductivity. The circuit-printed sensors utilizing MTA9100/Metal Powder show no performance difference compared to the expensive silver nano powder traditionally used. Furthermore, they significantly contribute to EMI countermeasures by preventing noise interference. 【Examples】 《In the case of circuit printing》 ■ Circuit-printed sensors using MTA9100 powder ■ No performance difference compared to the expensive silver nano powder traditionally used ■ Significantly contributes to EMI countermeasures by preventing noise interference
Inquire About This Product
basic information
【Product Name】MTA9100 Metal Powder 【Components】Fe-10-30 Cu 【Particle Shape】D50: 10-45μ 【Manufacturing Method】Gas Atomization Water Atomization
Price information
Please contact us.
Delivery Time
※Immediate delivery if in stock. Other sizes and specifications may vary.
Applications/Examples of results
Please contact us.
Company information
MTA Alloy Co., Ltd. is the world's first casting manufacturer to successfully develop an alloy of iron and copper. The MTA alloy, made by mixing familiar iron and copper, is truly the strongest superalloy in human history. 1. Copper Stainless S10 [Stainless + Copper] Copper is a metal with the strongest antibacterial properties. Copper stainless is an alloy that contains a small amount of copper in stainless steel, but it exhibits antibacterial properties equivalent to 100% copper. By leveraging this characteristic, many products are being developed to protect humans from invisible viruses and bacteria, such as those causing COVID-19 and food poisoning. 2. Bearing Material HLS10 Introducing a new bearing material. Similar to phosphor bronze, this copper stainless bearing can be used without oil and has improved wear resistance. 3. Thermal Mold Material MTAFeX2 The iron-based copper alloy MTA-FeX2 boasts a thermal conductivity of 90W and achieves a surface hardness of HRC 60 with Edison Hard and HV 800 with Caniboron plating. As "copper," which conducts heat and electricity well, is expected to see a significant increase in demand worldwide, its price will continue to rise. Therefore, by using "copper alloys" made from inexpensive iron as alternative materials, we can contribute to the responsible use of limited resources in line with the SDGs.