Advances in Sintering of Powder Metallurgy Steels

Kariyawasam, Nilushi Christine

January 2017

In comparison to traditionally fabricated steels that can undergo extensive processing to produce a complex-shaped component, the powder metallurgy (PM) technique can provide a more efficient approach as it is capable of producing intricately-shaped components that require little to no additional processing and machining [1], [2]. A key factor in being able to do so pertains to quenching and utilizing an appropriate quenching agent that can provide dimensional stability to the part being quenched [3], [4]. To ensure that a PM component can perform equally well when being quenched by a quenchant of reduced cooling capability, the PM component should be if not more, then just as hardenable. Steel hardenability can inevitably be improved with the increase of overall alloying content [5], however, if overall alloying content is to be kept at a minimum, the concept of lean PM steel design is one worth investigating; where a lean steel entails that each and every alloying addition is utilized to its maximum potential. This study evaluates the homogenization behaviour of alloying elements in PM steels during sintering as well as the efficiency of wide-spread industrial practices involving the use of various master alloys and ferroalloys, and investigates the realm of liquid phase sintering to understand and optimize the homogenization behaviour of alloying elements and mechanical properties of PM steels. In the context of this work, multi-component master alloys contain at least three of non-ferrous metals as alloying elements and ferroalloys are master alloys containing iron in addition to typically a maximum of two other non-ferrous alloying additions. Part one of this study discusses a combination of thermodynamic software (DICTRA and Thermo-Calc), incremental sintering experiments and scanning electron microscopy (SEM) - wavelength dispersive spectroscopy (WDS) that were used in order to form a deeper understanding of the homogenization behaviour of alloying elements within PM steel during sintering. Electron microscopy analyses on partially and industrially sintered components provide elemental maps to track the evolution of alloying elements as they relax to homogeneity. Electron microscopy analyses for this portion of the study were conducted on an industryproduced automotive component that was sectioned and sintered industrially as well as experimentally at 1280°C for 30 minutes and 13.4 hours. DICTRA simulations carried out for this research provide a 1-D insight into the evolution of concentration profiles and phases throughout various sintering times for systems involving Cr, Mn, C and Fe. DICTRA simulation results of alloying sources were studied alongside alloying element profiles obtained by compiling point quantification from wavelength dispersive spectroscopy maps for the sintered automotive component. Computational results provided conservative, semi-quantitative recommendations on optimal alloy addition forms that lead to an improvement in homogenization. Part two of this study involves the approach of fabricating and testing multi-component master alloy additions. As these materials are widely employed in PM and are typically fabricated by solidification, their states are non-equilibrium and therefore have regions containing phases precipitating in the beginning of freezing which have higher melting temperatures than regions with phases forming later on. During heating, it is hypothesized that Scheil’s solidification path backtracks and as a result, a fraction of liquid in the ferroalloy can be estimated at sintering temperature. If the fraction is significant, the utilization of this ferroalloy implies liquid phase sintering. Through a combination of Thermo-Calc and Fortran softwares, multi-component ferroalloys with promising compositions were discovered in Fe-C-Cr-Mn, Fe-C-Cr-Mn-Ni, FeC-Mn-Mo, Fe-C-Mn-Mo-Ni and Fe-C-Cr-Mn-Mo-Ni systems for low temperature liquid phase sintering. Those of the Fe-C-Cr-Mn-Mo, Fe-C-Cr-Mn-Mo-Ni and Fe-Mn-Mo-Ni system were fabricated and tried in practice. Compositional maps and mechanical properties of PM steels made with variations of this specially tailored multi-component master alloys were compared with those for which traditional alloy additions were used. / Thesis / Master of Applied Science (MASc)

Powder Metallurgy

Ferrous

Homogenization

Alloying Additions

DICTRA

Wavelength Dispersive Spectroscopy

The problem of brittle fracture in metals

Hinkamp, Maddox Nelson Pieter

03 1900

This thesis document was issued under the authority of another institution, not NPS. At the time it was written, a copy was added to the NPS Library collection for reasons not now known.  It has been included in the digital archive for its historical value to NPS.  Not believed to be a CIVINS (Civilian Institutions) title. / Attention has been focused in recent years on the all-important subject of brittle fracture. It ls well to point out that if there were no controversies or discrepancies in the theories concerning brittle fracture, and if the state of knowledge was in fairly satisfactory condition, the series epidemic of failures in welded ship structures during World War II might never have happened. Much of the recent investigation and attention given to this subject stems from this one series of failures as add»d impetus towards the solution of one of the most outstanding questions in metallurgy. / http://www.archive.org/details/problemofbrittle00hink / U.S. Navy (U.S.N.) author.

Metallurgy

The kinetics of the sintering process

Shaler, Amos

January 1947

Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1947. / Includes bibliographical references. / by Amos Johnson Shaler. / Sc.D.

Metallurgy

The tempering of plain carbon steels

Fletcher, Stewart Gailey

January 1943

Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1943. / Vita. / Includes bibliographical references (leaves 133-137). / by Stewart Gailey Fletcher. / Sc.D.

Metallurgy

Streaming potential studies on quartz

Fuerstenau, Douglas Winston, 1928-

January 1953

Thesis (Sc.D.) Massachusetts Institute of Technology. Dept. of Metallurgy, 1953. / Vita. / Bibliography: leaves 76-77. / by Douglas W. Fuerstenau. / Sc.D.

Metallurgy

Desulfurization of vacuum induction melted high strength steel: relation to mechanical properties

Dabney, John Baldwin

January 1961

Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1961. / Vita. / Includes bibliographical references (leaves 36-39). / by John B. Dabney. / Sc.D.

Metallurgy

Plastic instability and fracture in sheets stretched over rigid punches

Keeler, S. P. (Stuart P.)

January 1961

Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1961. / Vita. / Includes bibliographical references (leaves x, 84). / by Stuart Philip Keeler. / Sc.D.

Metallurgy

Brittle fracture

Meloy, T. P

January 1960

Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1960. / Includes bibliographical references (leaves 84-85). / by Thomas Phillips Meloy. / Ph.D.

Metallurgy

Crystallization and melting kinetics of sodium disilicate.

Meiling, Gerald Stewart

January 1966

Massachusetts Institute of Technology. Dept. of Metallurgy. Thesis. 1966. Sc.D. / Bibliography: leaves 83-87. / Sc.D.

Metallurgy

The dimensional behavior of invar

Lement, Bernard Samuel

January 1949

Thesis (Sc.D.) Massachusetts Institute of Technology. Dept. of Metallurgy, 1949. / Bibliography: leaves 92-94. / by Bernard Samuel Lement. / Sc.D.

Metallurgy