Effect of powder mix formulation and sintering conditions on dimensional stability of sinter hardened powders
Optimized sinterhardening formulations with excellent dimensional accuracy in order to reduce as much as possible the cost related to quality issues resulting from dimensional variation.
Effect of C, Mn and Cr conc, dens, sint temp and cool rates on prop of lean alloy PM steels
Comprehensive study of the effect of C, Mn and Cr concentrations as well as density, sintering temperature and post-sintering cooling rate on properties of lean alloy PM steels produced with a 0.5% Mo low alloy steel and a carbon master alloy containing 2% C and 1% Si
Effect of carbon content and post-sintering cooling rate on mechanical properties of high density sintered materials made from diffusion-bonded powders
Effect of density and mix formulation on sintered strength and dimensional stability of 0.85% Mo low alloy steel powders
Development and properties of a new malleable iron powder grade
A novel ferrous powder grade developed to compete with ductile iron. This new malleable iron powder (MIP) is an iron-graphite composite powder in which the carbon is dispersed as graphite nodules in a ferritic matrix.
Development of cost effective organic-bonded Mo-Ni-Cu steel powders with the FLOMET process
Presentation of the key characteristics of organic-bonding as well as properties of various grades of Mo-Ni-Cu diffusion-alloyed and organic-bonded powders
Development of high compressible leaner alloyed steel powders equivalent to Mo-Ni-Cu diffusion bonded powders
The results of studies of optimized leaner powders using cost effective processing technologies
Development of optimized diffusion alloyed powders
The results of a study based on a FD-0205 chemistry (0.5%Mo-1.75%Ni-1.5%Cu) to optimize the powder chemistry in regards to cost and to evaluate the effect of each element on static properties
Diffusion-bonded molybdenum steel powders for high strength applications
The mechanical properties of a pre-alloyed 1.5% molybdenum steel powder to which 2% copper and 4% nickel have been diffusion-bonded
Dilatometric analysis of pre-alloyed high hardenability PM steels containing elemental Cu additions
A dilatometry study combined with interrupted sintering experiments from selected temperatures in order to determine hardenability response as expressed by the corresponding CCT curves and the micromechanisms involved in microstructural development due to nickel redistribution and copper spreading and penetration through the austenite grain boundaries