TY - GEN

T1 - Role of Thermal Processing in Tailored Forming Technology for Manufacturing Multi-Material Components

AU - Goldstein, Robert

AU - Behrens, Bernd Arno

AU - Duran, Deniz

PY - 2017

Y1 - 2017

N2 - The demand for lightweight, high performance components continues to grow in the transportation industry. However, the inevitable trade-off between strength, weight and cost is a limiting factor in design and implementation of many technologies. Load adapted tailored components with locally varying properties offer a potential solution to this problem. In sheet forming industry, use of tailored blanks has increased notably in die last two decades, whereas utilization of such concept is relatively new to bulk metal forming industry. The researchers have been exploring new possibilities for suitable process chains to manufacture massive hybrid components. The process chain involves manufacturing processes of joining, forming, heat treatment and machining. The interface characteristics between the two materials are decisive in the performance of the manufactured component. In this study, manufacturing of a bi-material shaft by tailored forming is covered. First of all, an overview of die tailored forming technology is given with an emphasis on the joining zone treatment by thermal and thermomechanical processing. In the following, a numerical and experimental analysis of induction heating of bi-material workpieces is presented.

AB - The demand for lightweight, high performance components continues to grow in the transportation industry. However, the inevitable trade-off between strength, weight and cost is a limiting factor in design and implementation of many technologies. Load adapted tailored components with locally varying properties offer a potential solution to this problem. In sheet forming industry, use of tailored blanks has increased notably in die last two decades, whereas utilization of such concept is relatively new to bulk metal forming industry. The researchers have been exploring new possibilities for suitable process chains to manufacture massive hybrid components. The process chain involves manufacturing processes of joining, forming, heat treatment and machining. The interface characteristics between the two materials are decisive in the performance of the manufactured component. In this study, manufacturing of a bi-material shaft by tailored forming is covered. First of all, an overview of die tailored forming technology is given with an emphasis on the joining zone treatment by thermal and thermomechanical processing. In the following, a numerical and experimental analysis of induction heating of bi-material workpieces is presented.

UR - http://www.scopus.com/inward/record.url?scp=85047352102&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85047352102

T3 - ASM International - 29th Heat Treating Society Conference, HEAT TREAT 2017

SP - 172

EP - 179

BT - ASM International - 29th Heat Treating Society Conference, HEAT TREAT 2017

PB - ASM International

T2 - 29th Heat Treating Society Conference, HEAT TREAT 2017

Y2 - 24 October 2017 through 26 October 2017

ER -