Wear phenomena in injection molding – Novel wear testing device for detecting dissipation effects in wear of plastic mold steels
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30th Leoben-Conference on Polymer Engineering & Science Conference Proceeding. Hrsg. / Chair of Polymer Processing. Department of Polymer Engineering and Science, Montanuniversität Leoben, 2022. S. 120-131 (Publication Series Polymer Engineering & Science Leoben; Band 11).
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TY - GEN
T1 - Wear phenomena in injection molding – Novel wear testing device for detecting dissipation effects in wear of plastic mold steels
AU - Zidar, David
PY - 2022/9/15
Y1 - 2022/9/15
N2 - Prof. Friesenbichler started to research wear in injection molding over 20 years ago. At the 5th International Conference on Tooling, University of Leoben, Austria 1999 he published the „Wear testing apparatus with integrated measuring technology for measuring the abrasive/corrosive wear on steels for plastics molds“ [1]. With this apparatus Dr. Blutmager a then PhD-Student of Prof. Friesenbichler tested high grade steel specimens on their abrasive wear behavior and found a loss of hardness near the surface that came in contact with the melt [2]. This made it necessary to take the next development step to be able to measure the conditions and circumstances that lead to the phenomenon of hardness loss. This paper will give an overview of all measuring capabilities of the novel „wear testing apparatus with interchangeable measurement setup“ [3] and provide measuring data and conditions that prove the temperature rise due to viscous dissipation above the secondary hardening peak of a X190CrVMo20-4-1 at 520°C.
AB - Prof. Friesenbichler started to research wear in injection molding over 20 years ago. At the 5th International Conference on Tooling, University of Leoben, Austria 1999 he published the „Wear testing apparatus with integrated measuring technology for measuring the abrasive/corrosive wear on steels for plastics molds“ [1]. With this apparatus Dr. Blutmager a then PhD-Student of Prof. Friesenbichler tested high grade steel specimens on their abrasive wear behavior and found a loss of hardness near the surface that came in contact with the melt [2]. This made it necessary to take the next development step to be able to measure the conditions and circumstances that lead to the phenomenon of hardness loss. This paper will give an overview of all measuring capabilities of the novel „wear testing apparatus with interchangeable measurement setup“ [3] and provide measuring data and conditions that prove the temperature rise due to viscous dissipation above the secondary hardening peak of a X190CrVMo20-4-1 at 520°C.
KW - Wear Testing
KW - Plastic mold steel
KW - drastic temperature increase
KW - injection molding
M3 - Conference contribution
T3 - Publication Series Polymer Engineering & Science Leoben
SP - 120
EP - 131
BT - 30th Leoben-Conference on Polymer Engineering & Science Conference Proceeding
A2 - Chair of Polymer Processing, null
CY - Department of Polymer Engineering and Science, Montanuniversität Leoben
ER -
