porous metal bonds increase the resource efficiency for profile

Porous Metal Bonds Increase the Resource Efficiency for

Novel highly porous metal bonds have the potential to increase the energy efficiency of grinding processes. These tools are similar in construction to vitrified bonded grinding tools, but at the same time show the high thermal conductivity, good profile stability and high grain retention forces of metallic bonds.

Cited by: 1Publish Year: 2018Author: Berend Denkena, Thilo Grove, Vino Suntharakumaran

Study on design and performance of metal-bonded diamond

Oct 15, 2018· Porous metal-bonded grinding wheels with high porosity and controllable pore shape, size, quantity and distribution are in great demand but hard to realize for traditional process. In this study, the novel method is proposed to fabricate porous metal-bonded grinding wheels based on selective laser melting technology.

Cited by: 3Publish Year: 2018Author: Chenchen Tian, Xuekun Li, Shubo Zhang, Guoqiang Guo, Liping Wang, Yiming Rong

TUESDAY; MAY 7 - engineering.purdue.edu

databased Energy and Resource Modeling and Simulation of Energy Converters : Thomas Weber; Porous metal bonds increase the resource efficiency for profile grinding II . Vino Suntharakumaran; Berend Denkena; Improving Efficiency and Quality Under the Environment of Industry 4.0 . Zipeng Wang; Ruwen Qin; Jihong Yan;

Vino Suntharakumaran | Grinding technology | ResearchGate

Porous Metal Bonds Increase the Resource Efficiency for Profile Grinding Vino Suntharakumaran. Profile grinding is irreplaceable for the machining of various brittle and hard workpieces, e.g

Improved Product Quality and Resource Efficiency in Porous

Cite this paper as: Schoop J., Effgen M., Balk T.J., Jawahir I.S. (2013) Improved Product Quality and Resource Efficiency in Porous Tungsten Machining for Dispenser Cathode Application by Elimination of the Infiltration Process.

Cited by: 6