Carpenter Technology Corporation (NYSE: CRS) is a global leader in high-performance specialty alloy-based materials and process solutions for critical applications in the aerospace, automotive, defense, energy, industrial, medical, and consumer electronics markets. To be the preferred solutions provider in specialty materials with a reputation for zero injuries, unquestionable quality, intimate customer connections, innovative growth, creative technology, and engaged talent. We embrace our role in the manufacture of mission critical never-fail products and behave in a passionate manner that will inspire our communities, customers, and investors.
The standard atomization techniques to fabricate Ti64 powders for AM are EIGA and plasma atomization. Our recent wh… https://t.co/KvKPsHPz2D
Dynamic driver units can be optimized for increased performance, decreased weight, and increased battery time throu… https://t.co/ZtBi8dJ7D7
With improved melting cleanliness protocols, effective scrap reuse, and recycling controls, Carpenter Technology ha… https://t.co/VE8VnuRj4q
We provide advanced specialty materials for flight-critical applications, enabling defense engineers to design smal… https://t.co/HxYK4njByz
We've been exploring several new materials for instrumentation and surgical tools, including high-nitrogen versions… https://t.co/gg4KkSCFCL
The industry-leading magnetic induction of the #Hiperco® family of iron cobalt alloys increases magnetic flux in th… https://t.co/QhLf9cPiFG
Beginning 2/18/21, our materials will be simultaneously working mission-critical applications on two planets 🚀🛰️ .… https://t.co/C3hJdO825h
We recently carried out a comparative study, comparing the chemical, microstructural, and mechanical properties of… https://t.co/mJEqGHbeGD
Carpenter Technology is sponsoring the Medical/Dental #3DPrinting vertical for @3DPrint_com online industry summit… https://t.co/HPzSIK7peD
Join us for our upcoming virtual discussion on Ti64 Grade 23+, an #additivemanufac turing solution that combines controlled powder chemistry with lower oxygen content and optimized print parameters.