Add to ORKGHeavy duty applications of the automotive industry are forcing the PM' industry more and more to develop new high-strength materials. Herefore, two newly developed materials Fe8.0%Ni-1.O%Mo-0.5%C, as sintered, and Fe-1.5%Mo-0.5%C, as-sintered and quenched and tempered were investigated. The high fatigue performance of the first material obtained directly after sintering could be reached only by the second one after a heat treatment
Powder metallurgy (PM) for bearing steel manufacturing was introduced several decades ago and mainly...
Powder Metallurgy (PM) is an economical way to produce components in large series. To broaden the ...
Rolling contact fatigue tests with a sliding of - 24 per cent were performed with the mixed alloys F...
In order to extend the already available knowledge on monotonic and cyclic stressstrain behaviour, f...
Mechanical properties of the diffusion alloyed PM' steel Fe-4.0%Ni-1.5%Cu-0.5%Mo+0.6%C (Ultrapac LE ...
Mechanical properties of the diffusion alloyed PM' steel Fe-4.0 percent Ni-1.5 percent Cu-0.5 percen...
This investigation compares the fatigue behaviour of the alloys Fe-1.5%Cu, Fe-1.5%Cu-0.6%C and Fe-0....
Mechanical properties of the diffusion alloyed PM' steel Fe-4.0 percent Ni-1.5 percent Cu-0.5 percen...
In order to be prepared for possible end-user's requests to apply high-strength PM parts without pro...
A high-strength sintered steel produced by admixing diffusion alloyed Distaloy AB (Fe-1.75Ni-1.5Cu- ...
Free nickel is avoided more and more in the development of new iron basis P/M alloys, either by comp...
Proceedings of: 4th International Conference on Powder Metallurgy (RoPM 2009).Since low alloyed sint...
The usage of PM steels in industry, claims for continuous efforts in research and development. For t...
The use of P/M materials is rapidly expanding concentrating more and more on structural parts such a...
Powder metallurgy, among several competing mass production methods, plays an important role, not onl...
Powder metallurgy (PM) for bearing steel manufacturing was introduced several decades ago and mainly...
Powder Metallurgy (PM) is an economical way to produce components in large series. To broaden the ...
Rolling contact fatigue tests with a sliding of - 24 per cent were performed with the mixed alloys F...
In order to extend the already available knowledge on monotonic and cyclic stressstrain behaviour, f...
Mechanical properties of the diffusion alloyed PM' steel Fe-4.0%Ni-1.5%Cu-0.5%Mo+0.6%C (Ultrapac LE ...
Mechanical properties of the diffusion alloyed PM' steel Fe-4.0 percent Ni-1.5 percent Cu-0.5 percen...
This investigation compares the fatigue behaviour of the alloys Fe-1.5%Cu, Fe-1.5%Cu-0.6%C and Fe-0....
Mechanical properties of the diffusion alloyed PM' steel Fe-4.0 percent Ni-1.5 percent Cu-0.5 percen...
In order to be prepared for possible end-user's requests to apply high-strength PM parts without pro...
A high-strength sintered steel produced by admixing diffusion alloyed Distaloy AB (Fe-1.75Ni-1.5Cu- ...
Free nickel is avoided more and more in the development of new iron basis P/M alloys, either by comp...
Proceedings of: 4th International Conference on Powder Metallurgy (RoPM 2009).Since low alloyed sint...
The usage of PM steels in industry, claims for continuous efforts in research and development. For t...
The use of P/M materials is rapidly expanding concentrating more and more on structural parts such a...
Powder metallurgy, among several competing mass production methods, plays an important role, not onl...
Powder metallurgy (PM) for bearing steel manufacturing was introduced several decades ago and mainly...
Powder Metallurgy (PM) is an economical way to produce components in large series. To broaden the ...
Rolling contact fatigue tests with a sliding of - 24 per cent were performed with the mixed alloys F...