Search Results - "VAN HUMBEECK, J"

Influence of selective laser melting process parameters on texture evolution in pure copper by Jadhav, S.D., Dadbakhsh, S., Goossens, L., Kruth, J-P, Van Humbeeck, J., Vanmeensel, K.

“…In the present work, Crack-Free pure copper parts with relative densities exceeding 98% are processed by selective laser melting (SLM) using a high-power fiber…”
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Damping capacity of thermoelastic martensite in shape memory alloys by Van Humbeeck, J.

“…Shape memory alloys attract increasing interest as materials that can be used for passive as well as active damping applications. The passive high damping…”
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Structural anelasticity, elasticity and broken ergodicity in Ni–Ti shape memory alloys by Kustov, S., Salas, D., Cesari, E., Santamarta, R., Mari, D., Van Humbeeck, J.

“…New data are presented on dynamic measurements of elasticity and anelasticity of several poly- and single crystalline Ni1+xTi1-x alloys for frequencies between…”
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Isothermal and athermal martensitic transformations in Ni–Ti shape memory alloys by Kustov, S., Salas, D., Cesari, E., Santamarta, R., Van Humbeeck, J.

“…Ni–Ti shape memory alloys are known to demonstrate three possible transformation paths between B2 and B19′ phases, B2–R–B19′, B2–B19′ and B2–B19–B19′,…”
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Isothermal B2–B19′ martensitic transformation in Ti-rich Ni–Ti shape memory alloy by Salas, D., Cesari, E., Van Humbeeck, J., Kustov, S.

“…The athermal/isothermal nature of the B2↔B19′ martensitic transformation was investigated by means of electrical resistance measurements in a Ni49.5Ti50.5…”
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High Temperature Shape Memory Alloys Problems and Prospects by Firstov, G. S., Van Humbeeck, J., Koval, Yu. N.

“…In this article, a review of the existing high temperature shape memory alloy (HTSMA) systems is given. Certain crucial disadvantages general to all HTSMAs and…”
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Microstructure and mechanical properties of a novel β titanium metallic composite by selective laser melting by Vrancken, B., Thijs, L., Kruth, J.-P., Van Humbeeck, J.

“…Selective laser melting (SLM) is an additive manufacturing process in which functional, complex parts are produced by selectively melting consecutive layers of…”
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Two-way shape memory effect developed by martensite deformation in NiTi by Liu, Yinong, Liu, Yong, Van Humbeeck, J

“…The effect of tensile deformation in the martensitic state on the transformation behaviour of a polycrystalline near-equiatomic NiTi alloy was investigated by…”
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Potential of amorphous microporous silica for ibuprofen controlled release by Aerts, C.A., Verraedt, E., Depla, A., Follens, L., Froyen, L., Van Humbeeck, J., Augustijns, P., Van den Mooter, G., Mellaerts, R., Martens, J.A.

“…Amorphous microporous silica (AMS) xerogel materials were synthesized in an acid-catalyzed sol–gel process. The porosity of AMS was adapted by varying sol–gel…”
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Critical overview of Nitinol surfaces and their modifications for medical applications by Shabalovskaya, S., Anderegg, J., Van Humbeeck, J.

“…Nitinol, a group of nearly equiatomic shape memory and superelastic NiTi alloys, is being extensively explored for medical applications. Release of Ni in the…”
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Recent observations of particulates in Nitinol by Shabalovskaya, S., Anderegg, J., Van Humbeeck, J.

“…In spite of 40 years of history of Nitinol, the issues regarding its inclusions have been poorly explored. In our brief studies, conducted within the projects…”
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Fatigue behaviour of NiTi shape memory alloy scaffolds produced by SLM, a unit cell design comparison by Speirs, M., Van Hooreweder, B., Van Humbeeck, J., Kruth, J.-P.

“…Selective laser melting (SLM) is an additive manufacturing technique able to produce complex functional parts via successively melting layers of metal powder…”
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The Developments of Cold-rolled TRIP-assisted Multiphase Steels. Al-alloyed TRIP-assisted Multiphase Steels by Jacques, P. J., Girault, E., Mertens, A., Verlinden, B., Humbeeck, J. van, Delannay, F.

“…The influence of heat-treating conditions on the retention of carbon-enriched austenite of TRIP-assisted multiphase steel grades containing different amounts…”
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Effect of texture orientation on the martensite deformation of NiTi shape memory alloy sheet by Liu, Y., Xie, Z.L., Van Humbeeck, J., Delaey, L.

“…For a cold-rolled NiTi sheet, the tensile stress–strain curves show a flat stress-plateau during tension along the rolling direction, while under tension along…”
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Martensitic transformation and shape memory effect in Ni3Ta: A novel high-temperature shape memory alloy by Firstov, G.S., Koval, Yu.N., Van Humbeeck, J., Ochin, P.

“…This paper is dedicated to the first observations of the martensitic transformation (MT) and shape memory effect in Ni3Ta intermetallic compound. It was found…”
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Texture and anisotropy in selective laser melting of NiTi alloy by Dadbakhsh, S., Vrancken, B., Kruth, J.-P., Luyten, J., Van Humbeeck, J.

“…Selective laser melting (SLM) is used to manufacture dense NiTi parts. The microstructure and texture are assessed (before and after annealing followed by…”
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Microstructure of NiTi shape memory alloy due to tension–compression cyclic deformation by Xie, Zeliang, Liu, Yong, Van Humbeeck, J

“…Experimental results have shown that, during mechanical cycling under tension–compression load within ±4% strains, the NiTi shape memory alloy is cyclic…”
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Pinning-induced stabilization of martensite: Part I. Stabilization due to static pinning of interfaces by Kustov, S., Pons, J., Cesari, E., Van Humbeeck, J.

“…A simple model, based on thermoelastic force balance, is suggested for the part of the stabilization of martensite resulting from pinning of interfaces, which…”
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Crack propagation and fracture toughness of Ti6Al4V alloy produced by selective laser melting by Cain, V., Thijs, L., Van Humbeeck, J., Van Hooreweder, B., Knutsen, R.

“…The fracture toughness (K1c) and fatigue crack growth rate (FCGR) properties of selective laser melted (SLM) specimens produced from grade 5 Ti6Al4V powder…”
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Structural Changes Caused by High-Temperature Holding of Powder Shape Memory Alloy 66% Fe – 14% Mn – 6% Si – 9% Cr – 5% Ni by Pricop, B., Özkal, B., Söyler, U., Van Humbeeck, J., Lohan, N. M., Suru, M.-G., Spiridon, I.-P., Bujoreanu, L.-G.

“…Shape memory alloy Fe – 14Mn – 6Si – 9Cr – 5Ni (wt.%) obtained by cold pressing and sintering of a mixture of powder elements or of mechanically alloyed powder…”
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