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The tensile properties of a Powder Metallurgy Cu–Mo–Ni diffusion bonded steel sintered at different temperatures, file e3835198-291c-72ef-e053-3705fe0ad821
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100
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Die Wall - Vs. Bulk Lubrication in Warm Die Compaction: Density, Microstructure and Mechanical Properties of Three Low Alloyed Steels, file e3835197-1b16-72ef-e053-3705fe0ad821
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91
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Optimization of SLM technology: Main parameters in the production of gold and platinum jewelry, file e3835196-9f90-72ef-e053-3705fe0ad821
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54
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Design for Powder Metallurgy: Predicting Anisotropic Dimensional Change on Sintering of Real Parts, file e3835199-ae5b-72ef-e053-3705fe0ad821
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52
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A conservative approach to predict the contact fatigue behavior of sintered steels, file e3835194-ab5d-72ef-e053-3705fe0ad821
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46
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From experimental data, the mechanics relationships describing the behaviour of four different low alloyed steel powders during uniaxial cold compaction, file e3835198-291e-72ef-e053-3705fe0ad821
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45
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Development of a new model describing the anisotropic dimensional change on sintering, file e3835198-f973-72ef-e053-3705fe0ad821
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38
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An Improved Design Method for Net-shape Manufacturing in Powder Metallurgy, file e3835195-e166-72ef-e053-3705fe0ad821
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36
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Dimensional and geometrical precision of parts produced by binder jetting process as affected by the anisotropic shrinkage on sintering, file e3835198-5fd7-72ef-e053-3705fe0ad821
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31
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Geometrical Issues in Design for Binder Jetting – The Effect of Anisotropic Dimensional Change on Sintering, file e3835199-40e4-72ef-e053-3705fe0ad821
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31
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Densification and deformation during uniaxial cold compaction of stainless steel powder with different particle size, file e3835193-0bd8-72ef-e053-3705fe0ad821
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26
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Study of the uniaxial cold compaction of AISI 316L stainless steel powders through single action tests, file e3835198-298f-72ef-e053-3705fe0ad821
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26
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Densification and deformation during uniaxial cold compaction of stainless steel powder with different particle size, file e3835197-e675-72ef-e053-3705fe0ad821
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22
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Preliminary Design Method Accounting for Shape Distortion in Metal Binder Jetting Parts: A Case Study, file 19a9ef3e-633e-427b-afe8-cfc86eba10f9
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17
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The tensile properties of a Powder Metallurgy Cu–Mo–Ni diffusion bonded steel sintered at different temperatures, file e3835198-2c9f-72ef-e053-3705fe0ad821
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17
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Designing powder metallurgy process: The influence of high sintering temperature on dimensional and geometrical precision, file e3835199-895f-72ef-e053-3705fe0ad821
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16
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Analysis of the Flatness Form Error in Binder Jetting Process as Affected by the Inclination Angle, file e3835199-d1ea-72ef-e053-3705fe0ad821
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14
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Influence of Particle Size on the Phenomena Responsible for Densification during Uniaxial Cold Compaction, file e3835192-0383-72ef-e053-3705fe0ad821
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10
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Influence of sintering temperature on shrinkage anisotropy in Cr-Mo low alloy steel green compacts, file e3835192-0c7f-72ef-e053-3705fe0ad821
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9
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Study of the uniaxial cold compaction of AISI 316L stainless steel powders through single action tests, file e3835192-d262-72ef-e053-3705fe0ad821
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9
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The Analysis Of The Densification Curve Of Metallic Powders In Uniaxial Cold Compaction, file e3835195-e164-72ef-e053-3705fe0ad821
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8
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Effect of high sintering temperature on the dimensional and geometrical precision of PM Cr-Mo steel parts., file e3835192-0a28-72ef-e053-3705fe0ad821
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7
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Shot peening of sintered steels: effect of density and of the diffusion bonded Ni on surface modification and on the contact fatigue resistance, file e3835192-072c-72ef-e053-3705fe0ad821
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6
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The Influence of Powder Mix on Densification and Compaction Mechanics in Uniaxial Cold Compaction, file e3835194-44e7-72ef-e053-3705fe0ad821
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5
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Influence of the physical and the chemical characteristics of the precious metal powders on the properties of parts produced by SLM, file e3835194-f556-72ef-e053-3705fe0ad821
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5
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The influence of lubricant on the constitutive model of low alloy steel powder mix, file e3835195-7b79-72ef-e053-3705fe0ad821
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5
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Anisotropy of the dimensional variation of sintered parts: a predictive model and a statistical evaluation of its reliability., file e3835192-066d-72ef-e053-3705fe0ad821
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4
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STUDY OF THE ANISOTROPIC MICROSTRUCTURE OF THE UNIAXIALLY COLD COMPACTED GREEN PARTS, file e3835192-072e-72ef-e053-3705fe0ad821
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4
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In Situ Analysis of the Powder Behaviour during Cold Compaction, file e3835192-0ad2-72ef-e053-3705fe0ad821
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4
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THE INFLUENCE OF H/T RATIO ON THE DENSIFICATION MODEL OF AISI 316L POWDER DURING UNIAXIAL COLD COMPACTION, file e3835194-4ba5-72ef-e053-3705fe0ad821
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4
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From compaction mechanics to sintering shrinkage of rings with different H/(Dext-Dint) ratio, file e3835195-23cc-72ef-e053-3705fe0ad821
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4
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Understanding Powder Behaviour in Uniaxial Cold Compaction through the Data Recorded by the Press, file e3835195-6f71-72ef-e053-3705fe0ad821
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4
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High temperature sintering of low alloy steels: effect on shrinkage and dimensional stability, file e3835195-f69a-72ef-e053-3705fe0ad821
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4
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Development of a new model describing the anisotropic dimensional change on sintering, file e3835199-d37b-72ef-e053-3705fe0ad821
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4
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null, file 1bc748dc-9959-4349-bf0b-a66971e0a2cc
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3
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Design Procedure Accounting For The Anisotropic Dimensional Change On Sintering Of Ferrous Pm Parts, file e3835192-032d-72ef-e053-3705fe0ad821
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3
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STRESS DISTRIBUTION AND DENSIFICATION IN UNIAXIAL COLD COMPACTION – FROM EXPERIMENTS TO MECHANICS RELATIONSHIPS, file e3835193-0f53-72ef-e053-3705fe0ad821
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3
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Influence of compaction pressure on the anisotropy of sintering shrinkage of ring-shaped sponge and atomized iron parts, file e3835195-f695-72ef-e053-3705fe0ad821
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3
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A Design Procedure To Define The Optimum Hardness For Parts Subject To Contact Stresses, file e3835195-f6ac-72ef-e053-3705fe0ad821
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3
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Design for Powder Metallurgy: Predicting Anisotropic Dimensional Change on Sintering of Real Parts, file e3835199-9bdc-72ef-e053-3705fe0ad821
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3
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High temperature sintering and its effect on dimensional and geometrical precision and on microstructure of low alloyed steels, file e3835199-a8d2-72ef-e053-3705fe0ad821
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3
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A study of the anisotropy of dimensional change in the compaction plane during sintering of low alloyed cold compacted steels, file 636d8d71-6d1c-4997-9d90-93710ce5d9da
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2
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Data analysis for the LISA Technology Package, file e3835191-ce36-72ef-e053-3705fe0ad821
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2
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The first mock data challenge for LISA Pathfinder, file e3835191-ce3a-72ef-e053-3705fe0ad821
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2
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From Experimental Data an Analytical Model of Powder Behavior During Uniaxial Cold Compaction, file e3835192-01fe-72ef-e053-3705fe0ad821
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2
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Influence of Geometry and Process Variables on the Anisotropy Parameter K, file e3835192-0796-72ef-e053-3705fe0ad821
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2
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The shrinkage of uniaxially cold compacted iron green parts, file e3835193-0d0e-72ef-e053-3705fe0ad821
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2
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INFLUENCE OF POWDER DEFORMATION ON ANISOTROPY OF SINTERING SHRINKAGE, file e3835193-b72b-72ef-e053-3705fe0ad821
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2
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The Behaviour of Low Alloy Steel Powder during Uniaxial Cold Compaction – Influence of the Geometry, file e3835194-47fd-72ef-e053-3705fe0ad821
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2
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A densification equation derived from the stress-deformation analysis of uniaxial cold compaction of metal powder mixes, file e3835194-a646-72ef-e053-3705fe0ad821
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2
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Coordinate Measuring Machines (CMM) in Measurements of PM Parts – Influence of measurement strategy and data processing, file e3835194-fbf1-72ef-e053-3705fe0ad821
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2
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New interpretation for the origin of the anisotropic sintering shrinkage of AISI 316L rings based on the anisotropic stress field occurred on uniaxial cold compaction, file e3835195-b131-72ef-e053-3705fe0ad821
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2
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Dimensional metrology of additively manufactured lattice structures by combined tactile probe and X‐ray tomography, file e3835199-88e6-72ef-e053-3705fe0ad821
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2
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null, file e3835199-b209-72ef-e053-3705fe0ad821
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2
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null, file e3835199-c025-72ef-e053-3705fe0ad821
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2
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Effect of geometry and green density on the anisotropic sintering shrinkage of axisymmetric iron parts, file e3835199-dcdf-72ef-e053-3705fe0ad821
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2
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Dimensional and geometrical precision of parts produced by binder jetting process as affected by the anisotropic shrinkage on sintering, file e3835199-e83d-72ef-e053-3705fe0ad821
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2
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null, file 5bcbed6d-5a6d-4a2c-a3eb-5d54556ce55c
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1
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null, file c398bfee-703f-48f8-ad51-bf9841c8c679
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1
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The LTP experiment on the LISA pathfinder mission, file e3835191-cdcd-72ef-e053-3705fe0ad821
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1
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The role of product feature relations in a knowledge based methodology to manage design modifications for product measurability, file e3835191-cef7-72ef-e053-3705fe0ad821
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1
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Optimization of the main selective laser melting technology parameters in the production of gold jewelry, file e3835192-0786-72ef-e053-3705fe0ad821
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1
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The effect of anisotropic dimensional change on the precision of steel parts produced by powder metallurgy, file e3835192-4db9-72ef-e053-3705fe0ad821
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1
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A systematic approach to design against wear for Powder Metallurgy (PM) steel parts: The case of dry rolling–sliding wear, file e3835192-4f51-72ef-e053-3705fe0ad821
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1
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Dimensional and Geometrical Precision of Powder Metallurgy Parts Sintered and Sinterhardened at High Temperature, file e3835192-57d5-72ef-e053-3705fe0ad821
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1
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Study of the Influence of Material and Geometry on the Anisotropy of Dimensional Change on Sintering of Powder Metallurgy Parts, file e3835192-5de9-72ef-e053-3705fe0ad821
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1
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Theoretical and experimental study of the contact fatigue behavior of a Mo-Cu steel produced by powder metallurgy, file e3835192-61b2-72ef-e053-3705fe0ad821
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1
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Surface modifications induced by shot peening and their effect on the plane bending fatigue strength of a Cr–Mo steel produced by powder metallurgy, file e3835192-6218-72ef-e053-3705fe0ad821
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1
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Modello analitico delle variazioni dimensionali in sinterizzazione di componenti in ferro, file e3835193-08a3-72ef-e053-3705fe0ad821
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1
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Study of the Behaviour of Low Alloy Steel Powder during Uniaxial Cold Compaction by means of Single Action Tests, file e3835193-0d0b-72ef-e053-3705fe0ad821
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1
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Analitical model of the anisotropic dimensional change on sintering of ferrous PM parts, file e3835193-f000-72ef-e053-3705fe0ad821
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1
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Anisotropic sintering shrinkage of ring shaped iron parts: effect of geometry and green density and correlation to the stress field during uniaxial cold compaction., file e3835194-44ea-72ef-e053-3705fe0ad821
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1
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Sintering shrinkage of uniaxial cold compacted iron: influence of the microstructure on the anisothermal and isothermal shrinkage of uniaxial cold-compacted iron, file e3835194-a64c-72ef-e053-3705fe0ad821
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1
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Surface hardening vs. Surface embrittlement in carburizing of porous steels, file e3835194-ab50-72ef-e053-3705fe0ad821
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1
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Design for sintering club project – dealing with the anisotropy of dimensional changes in real parts, file e3835194-f4fb-72ef-e053-3705fe0ad821
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1
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Study of densification during uniaxial cold compaction of stainless steel powders through the analysis of the stress/deformation correlations., file e3835194-f4ff-72ef-e053-3705fe0ad821
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1
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Influence of particle size on the compaction mechanics of AISI 316L powder uni-axially cold compacted, file e3835194-f553-72ef-e053-3705fe0ad821
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1
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Influence of compaction strategy on dimensional and geometrical stability of a low alloy Mo steel., file e3835194-fbf3-72ef-e053-3705fe0ad821
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1
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New interpretation for the origin of the anisotropic sintering shrinkage of AISI 316L rings based on the anisotropic stress field occurred on uniaxial cold compaction, file e3835195-63f3-72ef-e053-3705fe0ad821
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1
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Study of elasto-plastic transition as affected by particle size during uniaxial cold compaction, file e3835195-f69c-72ef-e053-3705fe0ad821
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1
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Influence of die wall lubrication compaction on densification, microstructure and mechanical properties of low alloyed Mo and Cr steels, file e3835195-f69e-72ef-e053-3705fe0ad821
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1
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STUDY OF THE INFLUENCE OF GEOMETRY AND PARTICLE SIZE ON THE DENSIFICATION AND COMPACTION MECHANICS OF UNIAXIALLY COLD COMPACTED RINGS, file e3835195-f722-72ef-e053-3705fe0ad821
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1
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Processing method to improve the reliability of data recorded by an industrial press in describing powder behavior during uniaxial cold compaction, file e3835196-724b-72ef-e053-3705fe0ad821
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1
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High temperature sintering: Microstructure, density, dimensional and geometrical precision, file e3835196-9674-72ef-e053-3705fe0ad821
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1
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The contact fatigue behavior of PM steels, file e3835196-9676-72ef-e053-3705fe0ad821
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1
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Design guidelines for PM parts subject to dry rolling-sliding wear, file e3835196-a801-72ef-e053-3705fe0ad821
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1
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Dry-Sliding Wear and Design Criteria for PM Steels, file e3835196-d3ea-72ef-e053-3705fe0ad821
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1
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The Influence Of Lubricant Type And Amount On Warm Die Compaction Mechanics Relationships, file e3835197-d5b0-72ef-e053-3705fe0ad821
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1
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Warm die compaction of low alloy steel powder mix – Compaction mechanics and densification, file e3835199-44df-72ef-e053-3705fe0ad821
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1
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null, file e3835199-b3a7-72ef-e053-3705fe0ad821
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1
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null, file e3835199-c021-72ef-e053-3705fe0ad821
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1
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Totale |
845 |