Theory of sintering: from discrete to continuum
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[1] A. Boccaccini. On the sintering with rigid inclusions , 1998 .
[2] E. Olevsky,et al. Densification by sintering incorporating phase transformations , 1997 .
[3] C. Bert,et al. EVOLUTION OF POROSITY DISTRIBUTION FOR ONE-DIMENSIONAL PROBLEM OF VISCOUS SINTERING , 1997 .
[4] D. Johnson,et al. Master Sintering Curve: A Practical Approach to Sintering , 1996 .
[5] H. Riedel,et al. A model for liquid phase sintering , 1996 .
[6] G. V. D. Vorst,et al. Integral formulation to simulate the viscous sintering of a two-dimensional lattice of periodic unit cells , 1996 .
[7] H. Tong,et al. Theory of pressure sintering of glass ceramic multichip carriers , 1996 .
[8] E. Olevsky,et al. HIPing conditions for processing of metal matrix composites using the continuum theory for sintering—I. Theoretical analysis , 1996 .
[9] E. Olevsky,et al. Hiping conditions for processing of metal matrix composites using continuum theory for sintering—II. Application to fibre reinforced titanium alloys , 1996 .
[10] J. Schneibel,et al. The sintering of two particles by surface and grain boundary diffusion -- A two-dimensional numerical study , 1995 .
[11] C. Ponton,et al. Creep and densification during anisotropic sintering of glass powders , 1995, Journal of Materials Science.
[12] D. Beruto,et al. Effect of weak uniaxial loads on creep strain rate in high-porosity MgO compacts during early sintering stages , 1995, Journal of Materials Science.
[13] M. Rahaman. Ceramic Processing and Sintering , 1995 .
[14] W. Hong,et al. Pressureless Sintering of a Ceramic Matrix with Multiple Rigid Inclusions: Finite Element Model , 1995 .
[15] J. Ting,et al. Effect of particle size distribution on sintering , 1995 .
[16] L. Froyen,et al. The permeable element method for modelling of deformation processes in porous and powder materials: theoretical basis and checking by experiments , 1995 .
[17] Jing-Song Pan,et al. A numerical technique for the analysis of coupled surface and grain-boundary diffusion , 1995 .
[18] A. Jagota,et al. Viscosities and Sintering Rates of Composite Packings of Spheres , 1995 .
[19] J. Derby,et al. Viscous Sintering of Spherical Particles via Finite Element Analysis , 1995 .
[20] H. Riedel,et al. Quasi-equilibrium sintering for coupled grain-boundary and surface diffusion , 1995 .
[21] A. Cocks,et al. Diffusional creep and sintering—The application of bounding theorems , 1995 .
[22] J. Schneibel,et al. Sintering of regular two-dimensional arrays of particles surface and grain boundary diffusion , 1994 .
[23] Y. Kwon,et al. Densification and Grain Growth of Porous Alumina Compacts , 1994 .
[24] C. Reid. Numerical simulation of free shrinkage using a continuum theory for sintering , 1994 .
[25] J. Derby,et al. Analysis of capillary-driven viscous flows during the sintering of ceramic powders , 1994 .
[26] H. Riedel,et al. Densification and creep in the final stage of sintering , 1994 .
[27] A. Cocks. Overview no. 117 The structure of constitutive laws for the sintering of fine grained materials , 1994 .
[28] H. Wadley,et al. Densification of porous materials by power-law creep , 1994 .
[29] Y. Zhao,et al. Theoretical model for the analysis of a ceramic thin film sintering on a non-sintering substrate , 1994 .
[30] J. Ting,et al. Effect of particle-size distribution on sintering , 1994, Journal of Materials Science.
[31] H. Riedel,et al. Equilibrium pore surfaces, sintering stresses and constitutive equations for the intermediate and late stages of sintering—I. computation of equilibrium surfaces , 1994 .
[32] J. Svoboda,et al. Equilibrium pore surfaces, sintering stresses and constitutive equations for the intermediate and late stages of sintering—II. Diffusional densification and creep , 1994 .
[33] R. Hopper. Coalescence of Two Viscous Cylinders by Capillarity: Part II, Shape Evolution , 1993 .
[34] Anand Jagota,et al. Viscosities and sintering rates of a two-dimensional granular composite , 1993 .
[35] R. Hopper. Coalescence of Two Viscous Cylinders by Capillarity: Part I, Theory , 1993 .
[36] G. Vorst. Integral method for a two-dimensional Stokes flow with shrinking holes applied to viscous sintering , 1993, Journal of Fluid Mechanics.
[37] E. Olevsky,et al. Deformation aspects of anisotropic-porous bodies sintering , 1993 .
[38] A. Jagota,et al. Crack Growth and Damage in Constrained Sintering Films , 1993 .
[39] A. Cocks,et al. Pressureless sintering and hiping of inhomogeneous ceramic compacts , 1993 .
[40] R. Raj. Reply to “Comment on ‘Analysis of the Sintering Pressure’” , 1993 .
[41] Suk-joong L. Kang. Comment on “Analysis of the Sintering Pressure” , 1993 .
[42] H. Riedel,et al. A theoretical study of grain growth in porous solids during sintering , 1993 .
[43] D. Bouvard. Modelling the densification of powder composites by power law creep , 1993 .
[44] T. Shaw. Model for the Effect of Powder Packing on the Driving Force for Liquid‐Phase Sintering , 1993 .
[45] M. Shtern,et al. Continuum theory of sintering. II. Effect of the rheological properties of the solid phase on the kinetics of sintering , 1993 .
[46] F. Lange,et al. The Effect of Inclusions on Densification; III, The Desintering Phenomenon , 1992 .
[47] H. Riedel,et al. Pore-boundary interactions and evolution equations for the porosity and the grain size during sintering , 1992 .
[48] B. J. Lee,et al. Axisymmetric deformation of power-law solids containing a dilute concentration of aligned spheroidal voids , 1992 .
[49] R. Hopper. Stokes flow of a cylinder and half-space driven by capillarity , 1992, Journal of Fluid Mechanics.
[50] R. German. Sintering densification for powder mixtures of varying distribution widths , 1992 .
[51] S. Richardson,et al. Two-dimensional slow viscous flows with time-dependent free boundaries driven by surface tension , 1992, European Journal of Applied Mathematics.
[52] F. Lange,et al. Densification of Large Pores: I, Expriments , 1992 .
[53] A. Cocks,et al. Constitutive models for the sintering of ceramic components—I. Material models , 1992 .
[54] J. Besson,et al. Rheology of porous alumina and simulation of hot isostatic pressing , 1992 .
[55] B. J. Lee,et al. Effective properties of power-law solids containing elliptical inhomogeneities. Part II: Voids , 1992 .
[56] A. Cocks,et al. Constitutive models for the sintering of ceramic components—II. Sintering of inhomogeneous bodies , 1992 .
[57] Norman A. Fleck,et al. Yielding of metal powder bonded by isolated contacts , 1992 .
[58] Robert M. McMeeking,et al. Power-law creep of powder bonded by isolated contacts , 1992 .
[59] R. McMeeking,et al. A diffusional creep law for powder compacts , 1992 .
[60] Randall M. German,et al. Prediction of sintered density for bimodal powder mixtures , 1992 .
[61] R. Mattheij,et al. A boundary element solution for 2-dimensional viscous sintering , 1992 .
[62] R. Raj,et al. Model for the crystallization and sintering of unseeded and seeded boehmite gels , 1992 .
[63] M. Harmer,et al. Effect of Pore Distribution on Microstructure Development: III, Model Experiments , 1992 .
[64] A. Evans,et al. Effect of Inclusions on Densification: II, Numerical Model , 1992 .
[65] F. Lange,et al. Effect of Inclusions on Densification: I, Microstructural Development in an Al2O3 Matrix Containing a High Volume Fraction of ZrO2 Inclusions , 1992 .
[66] R. McMeeking,et al. Creep of Power-Law Material Containing Spherical Voids , 1991 .
[67] R. Hopper. Plane Stokes flow driven by capillarity on a free surface. Part 2. Further developments , 1991, Journal of Fluid Mechanics.
[68] G. Scherer. Cell Models for Viscous Sintering , 1991 .
[69] A. Jagota,et al. Mechanics of sintering thin films — II. Cracking due to self-stress , 1991 .
[70] L. C. Jonghe,et al. Effect of Green Density on Densification and Creep During Sintering , 1991 .
[71] J. Porter,et al. Deformation consolidation of metal powders containing steel inclusions , 1991 .
[72] R. Oakberg,et al. A continuum theory for the mechanical response of materials to the thermodynamic stress of sintering , 1990 .
[73] Gary L. Messing,et al. Ceramic Powder Science III , 1990 .
[74] J. Tirosh. Bulk forming by densification of dilatant time-dependent materials , 1990 .
[75] M. Harmer,et al. Effects of Inclusions on the Sintering Behavior of YBa2Cu3O6+x , 1990 .
[76] A. Jagota,et al. Mechanics of sintering thin films — I. Formulation and analytical results , 1990 .
[77] A. Jagota,et al. Isotropic Constitutive Model for Sintering Particle Packings , 1990 .
[78] H. Kuiken. Viscous sintering: the surface-tension-driven flow of a liquid form under the influence of curvature gradients at its surface , 1990, Journal of Fluid Mechanics.
[79] L. C. Jonghe,et al. Sintering of Spherical Glass Powder under a Uniaxial Stress , 1990 .
[80] L. C. Jonghe,et al. Sintering of Particulate Composites under a Uniaxial Stress , 1990 .
[81] L. C. Jonghe,et al. Pore size distribution, grain growth, and the sintering stress , 1989 .
[82] P. Funkenbusch,et al. Modeling of the densification rates of monosized and bimodal-sized particle systems during hot isostatic pressing (HIP) , 1989 .
[83] R. Raj,et al. Shear and Densification of Glass Powder Compacts , 1989 .
[84] L. C. Jonghe,et al. Effect of temperature on the densification/creep viscosity during sintering , 1989 .
[85] R. Brook,et al. Sintering of heterogeneous ceramic compacts: Part 1 Al2O2-Al2O3 , 1989 .
[86] R. Brook,et al. Sintering of heterogeneous ceramic compacts , 1989 .
[87] F. Lange. Densification of powder rings constrained by dense cylindrical cores , 1989 .
[88] M. Sacks,et al. Effect of Particle Size Distribution on the Sintering of Alumina , 1988 .
[89] P. Dawson,et al. An anisotropic continuum model for the sintering and compaction of powder packings , 1988 .
[90] G. Scherer. Viscous Sintering with a Pore‐Size Distribution and Rigid Inclusions , 1988 .
[91] R. German,et al. Compressive Stress for Large‐Pore Removal in Sintering , 1988 .
[92] Anand Jagota,et al. Micromechanical modeling of powder compacts—II. Truss formulation of discrete packings , 1988 .
[93] E. Liniger,et al. Spatial Variations in the Sintering Rate of Ordered and Disordered Particle Structures , 1988 .
[94] Anand Jagota,et al. Micromechanical modeling of powder compacts—I. Unit problems for sintering and traction induced deformation , 1988 .
[95] Rajendra K. Bordia,et al. On constrained sintering—I. Constitutive model for a sintering body , 1988 .
[96] G. Scherer,et al. On constrained sintering-II. Comparison of constitutive models , 1988 .
[97] G. Scherer,et al. On constrained sintering-III. Rigid inclusions , 1988 .
[98] R. Raj,et al. Shear deformation and compaction of nickel aluminide powders at elevated temperatures , 1988 .
[99] M. Harmer,et al. Effect of Pore Distribution on Microstructure Development: II, First‐ and Second‐Generation Pores , 1988 .
[100] Chun-Hway Hsueh. Comment on “Sintering with Rigid Inclusions” , 1988 .
[101] R. Raj,et al. Measurement of the Sintering Pressure in Ceramic Films , 1988 .
[102] R. Raj,et al. Sintering of TiO2–Al2O3 Composites: A Model Experimental Investigation , 1988 .
[103] J. Willis,et al. On the overall properties of nonlinearly viscous composites , 1988, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[104] M. Harmer,et al. Effect of Pore Distribution on Microstructure Development: I, Matrix Pores , 1988 .
[105] L. C. Jonghe,et al. Effect of Rigid Inclusions on the Sintering of Glass Powder Compacts , 1987 .
[106] L. C. Jonghe,et al. Creep-sintering of zinc oxide , 1987 .
[107] E. Liniger,et al. Packing and Sintering of Two‐Dimensional Structures Made fro Bimodal Particle Size Distributions , 1987 .
[108] George W. Scherera. Sintering with Rigid Inclusions , 1987 .
[109] R. Raj. Analysis of the sintering pressure , 1987 .
[110] M. Shtern,et al. Theory of nonlinearly viscous and plastic behavior of porous materials , 1987 .
[111] T. Harrett. Comment on ‘‘Particle size distribution effects on sintering rates’’ [J. Appl. Phys. 60, 383 (1986)] , 1987 .
[112] T. Ring,et al. Reply to ‘‘Comment on ‘Particle‐size distribution effects on sintering rates’ [J. Appl. Phys. 60, 383 (1986)]’’ , 1987 .
[113] L. C. Jonghe,et al. Creep‐Sintering and Microstructure Development of Heterogeneous MgO Compacts , 1987 .
[114] H. Exner. Neck shape and limiting GBDSD ratios in solid state sintering , 1987 .
[115] Ya. E. Geguzin,et al. Creep of porous compacts under the effect of uniaxial tensile stresses during heating. II. Correlation between shrinkage and uniaxial creep , 1987 .
[116] F. F. Lange. Constrained network model for predicting densification behavior of composite powders , 1987 .
[117] L. C. Jonghe,et al. Rearrangement During Sintering in Two‐Dimensional Arrays , 1986 .
[118] N. Fleck,et al. Void growth in shear , 1986, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[119] G. Scherer. Viscous Sintering under a Uniaxial Load , 1986 .
[120] Terry A. Ring,et al. Particle size distribution effects on sintering rates , 1986 .
[121] L. C. Jonghe,et al. TRANSIENT STRESSES IN BIMODAL COMPACTS DURING SINTERING , 1986 .
[122] R. Raj,et al. Shear Deformation and Densification of Powder Compacts , 1986 .
[123] A. Evans,et al. Behavior of Large Pores During Sintering and Hot Isostatic Pressing , 1986 .
[124] J. Duva. A constitutive description of nonlinear materials containing voids , 1986 .
[125] C. Hsueh. Sintering behaviour of powder compacts with multiheterogeneities , 1986 .
[126] R. M. Cannon,et al. Viscoelastic stresses and sintering damage in heterogeneous powder compacts , 1986 .
[127] A. Evans,et al. Influence of Multiple Heterogeneities on Sintering Rates , 1986 .
[128] R. Raj,et al. Analysis of Sintering of a Composite with a Glass or Ceramic Matrix , 1986 .
[129] L. C. Jonghe,et al. Creep and Densification During Sintering of Glass Powder Compacts , 1985 .
[130] C. F. Guerci,et al. Isothermal Sintering of Spheroidized Cordierite‐Type Glass Powders , 1985 .
[131] C. Hsueh. Sintering of a ceramic film on a rigid substrate , 1985 .
[132] A. Searcy. Driving Force for Sintering of Particles with Anisotropic Surface Energies , 1985 .
[133] Chun-Hway Hsueh. Effects of heterogeneity shape on sintering induced stresses , 1985 .
[134] C. Brinker,et al. Sol → gel → glass: III. Viscous sintering , 1985 .
[135] R. Raj,et al. Sintering Behavior of Ceramic Films Constrained by a Rigid Substrate , 1985 .
[136] G. Scherer,et al. Viscous Sintering on a Rigid Substrate , 1985 .
[137] T. Kennedy,et al. An Elastic Stress-Strain Relation for Sphere Arrays Undergoing Initial Stage Sintering , 1985 .
[138] R. Hopper. Coalescence of two equal cylinders: exact results for creeping viscous plane flow driven by capillarity , 1984 .
[139] G. Scherer. Viscous Sintering of a Bimodal Pore‐Size Distribution , 1984 .
[140] L. C. Jonghe,et al. Effect of Shear Stress on Sintering , 1984 .
[141] L. C. Jonghe,et al. Pore Shrinkage and Sintering Stress , 1984 .
[142] L. C. Jonghe,et al. Sintering of CdO Under Low Applied Stress , 1984 .
[143] J. Halloran,et al. Influence of Aggregates on Sintering , 1984 .
[144] L. Wynn Herron,et al. Isothermal Sintering of Cordierite‐Type Glass Powders , 1984 .
[145] M. Rahaman,et al. A LOADING DILATOMETER , 1984 .
[146] R. Raj,et al. Sintering behavior of bi-modal powder compacts , 1984 .
[147] B. Kellett,et al. Stresses Induced by Differential Sintering in Powder Compacts , 1984 .
[148] John W. Hutchinson,et al. Constitutive potentials for dilutely voided nonlinear materials , 1984 .
[149] T. Bhat,et al. An analysis of pressure sintering by computer simulation , 1984 .
[150] Frederick F. Lange,et al. Sinterability of Agglomerated Powders , 1984 .
[151] B. I. Davis,et al. Processing‐Related Fracture Origins: III, Differential Sintering of ZrO2 Agglomerates in Al2O3/ZrO2 Composite , 1983 .
[152] Frederick F. Lange,et al. Processing‐Related Fracture Origins: II, Agglomerate Motion and Cracklike Internal Surfaces Caused by Differential Sintering , 1983 .
[153] A. Nir,et al. SURFACE TENSION‐DRIVEN FLOW , 1983 .
[154] A. Evans. Considerations of Inhomogeneity Effects in Sintering , 1982 .
[155] D. Hasselman,et al. On the effect of porosity on the kinetics of densification during pressure sintering , 1982 .
[156] B. Budiansky,et al. On void collapse in viscous solids , 1982 .
[157] V. Tvergaard. On localization in ductile materials containing spherical voids , 1982, International Journal of Fracture.
[158] R. Raj. Separation of Cavitation‐Strain and Creep‐Strain During Deformation , 1982 .
[159] G. Messing,et al. Sintering of Inhomogeneous Binary Powder Mixtures , 1981 .
[160] M. Narkis,et al. Dimensional variations of two spherical polymeric particles during sintering , 1981 .
[161] W. H. Rhodes,et al. Agglomerate and Particle Size Effects on Sintering Yttria‐Stabilized Zirconia , 1981 .
[162] W. A. Miller,et al. Dynamic computer simulation of viscous flow sintering kinetics , 1981 .
[163] T. Bhat,et al. An equation for pressure sintering , 1981 .
[164] M. Ashby,et al. A second report on sintering diagrams , 1981 .
[165] F. Nichols. Comments on “problems with computer simulation of sintering kinetics” , 1980 .
[166] M. Narkis,et al. Coalescence phenomenology of spherical polymer particles by sintering , 1980 .
[167] R. German. Problems with computer simulation of sintering kinetics , 1980 .
[168] F. Nichols. Numerical methods for analyzing sintering by surface diffusion , 1980 .
[169] V. Arunachalam,et al. Inhomogeneous flow and the effective pressure concept in pressure sintering , 1980 .
[170] G. Scherer. Sintering inhomogeneous glasses: Application to optical waveguides , 1979 .
[171] Y. Corapcioglu,et al. Constitutive equations for plastic deformation of porous materials , 1978 .
[172] R. German,et al. Simulation of spherical powder sintering by surface diffusion , 1978 .
[173] George W. Scherer,et al. Sintering of Low‐Density Glasses: III, Effect of a Distribution of Pore Sizes , 1977 .
[174] George W. Scherer,et al. Sintering of Low-Density Glasses: I, Theory , 1977 .
[175] George W. Scherer,et al. Sintering of Low‐Density Glasses: II, Experimental Study , 1977 .
[176] Susumu Shima,et al. Plasticity theory for porous metals , 1976 .
[177] J. Strozier,et al. An approximate analytical model for the late‐stage sintering of an array of rods by viscous flow , 1976 .
[178] R. German,et al. Morphology relations during bulk-transport sintering , 1975 .
[179] M. Ashby,et al. Pressure sintering by power law creep , 1975 .
[180] R. German,et al. The geometry of sintering wires , 1975 .
[181] W. Beeré. The second stage sintering kinetics of powder compacts , 1974 .
[182] Michael F. Ashby,et al. A first report on sintering diagrams , 1973 .
[183] R. Coble. Effects of Particle-Size Distribution in Initial-Stage Sintering , 1973 .
[184] R. Gregg,et al. Surface tension and the sintering force in copper , 1973 .
[185] R. J. Green,et al. A plasticity theory for porous solids , 1972 .
[186] Albert C. Holt,et al. Static and Dynamic Pore‐Collapse Relations for Ductile Porous Materials , 1972 .
[187] I. Cutler,et al. Effect of Particle Shape on the Kinetics of Sintering of Glass , 1968 .
[188] F. Nichols. Coalescence of Two Spheres by Surface Diffusion , 1966 .
[189] H. Hausner,et al. Investigation in the Linear Shrinkage of Metal Powder Compacts During Sintering , 1962 .
[190] J. G. Early,et al. THE DRIVING FORCE FOR SHRINKAGE IN COPPER POWDER COMPACTS DURING THE EARLY STAGES OF SINTERING , 1962 .
[191] G. S. Ansell,et al. SOME OBSERVATIONS ON THE SHRINKAGE BEHAVIOUR OF COPPER COMPACTS AND OF LOOSE POWDER AGGREGATES , 1961 .
[192] R. L. Coble,et al. Sintering Crystalline Solids. I. Intermediate and Final State Diffusion Models , 1961 .
[193] I. Lifshitz,et al. The kinetics of precipitation from supersaturated solid solutions , 1961 .
[194] W. Kingery,et al. Study of the Initial Stages of Sintering Solids by Viscous Flow, Evaporation‐Condensation, and Self‐Diffusion , 1955 .
[195] Conyers Herring,et al. Effect of Change of Scale on Sintering Phenomena , 1950 .
[196] G. Kuczynski. Study of the Sintering of Glass , 1949 .
[197] J. Mackenzie,et al. A Phenomenological Theory of Sintering , 1949 .
[198] G. C. Kuczynski,et al. Self-Diffusion in Sintering of Metallic Particles , 1949 .
[199] A. Shaler,et al. Mechanism of Sintering , 1948 .
[200] A. Savitskii. Liquid-Phase Sintering of the Systems With Interacting Components , 1999 .
[201] T. Schwickert,et al. Advances in characterisation of machined green compacts , 1997 .
[202] R. German. Sintering theory and practice , 1996 .
[203] Huilong Zhu,et al. Sintering processes of two nanoparticles: A study by molecular dynamics simulations , 1996 .
[204] H. Riedel,et al. New solutions describing the formation of interparticle necks in solid-state sintering , 1995 .
[205] E. Olevsky,et al. Kinetics of sintering for powder systems with bimodal pore-size distribution , 1995 .
[206] Sotiris E. Pratsinis,et al. Monte Carlo simulation of particle coagulation and sintering , 1994 .
[207] De Graaf,et al. Mathematical addenda to hopper's model of plane stokes flow driven by capillarity on a free surface , 1993 .
[208] A. Boccaccini,et al. Viscous sintering of non-spherical borosilicate-glass powder , 1992 .
[209] R. German,et al. A model for densification by sintering of bimodal particle size distributions , 1992 .
[210] J. Duva,et al. The densification of powders by power-law creep during hot isostatic pressing , 1992 .
[211] G. Scherer. VISCOUS SINTERING OF PARTICLE-FILLED COMPOSITES , 1991 .
[212] Pedro Ponte Castañeda. The effective mechanical properties of nonlinear isotropic composites , 1991 .
[213] P. Dawson,et al. Simulation of the Viscous Sintering of Two Particles , 1990 .
[214] H. Exner,et al. A Stereology — Based Equation for Isotropic Shrinkage During Sintering by Viscous Flow , 1989 .
[215] H. Kuroki,et al. Mechanism of Anisotropic Dimensional Changes During Sintering of Metal Powder Compact , 1989 .
[216] A. Cocks. Inelastic deformation of porous materials , 1989 .
[217] B. I. Davis,et al. Processing-related fracture origins , 1989 .
[218] L. C. Jonghe,et al. Sintering stress of homogeneous and heterogeneous powder compacts , 1988 .
[219] J. Tirosh,et al. Damage evolution and rupture in creeping of porous materials , 1988 .
[220] F. A. Leckie,et al. Creep Constitutive Equations for Damaged Materials , 1987 .
[221] M. M. Carroll,et al. Compaction equations for strain hardening porous materials , 1987 .
[222] R. German,et al. Capillary forces between spheres during agglomeration and liquid phase sintering , 1987 .
[223] L. C. Jonghe,et al. Creep During Sintering of Porous Compacts , 1986 .
[224] M. Abouaf,et al. Modélisation numérique de la déformation à chaud de poudres métalliques , 1986 .
[225] S. M. Doraivelu,et al. A new yield function for compressible PM materials , 1984 .
[226] M. Narkis,et al. Newtonian sintering simulator of two spherical particles , 1983 .
[227] W. A. Miller,et al. Computer simulation of sintering in powder compacts , 1982 .
[228] John W. Hutchinson,et al. Void Growth and Collapse in Viscous Solids , 1982 .
[229] H. Exner. Solid-State Sintering: Critical Assessment of Theoretical Concepts and Experimental Methods , 1980 .
[230] A. Gurson. Continuum Theory of Ductile Rupture by Void Nucleation and Growth: Part I—Yield Criteria and Flow Rules for Porous Ductile Media , 1977 .
[231] R. German,et al. Identification of the initial stage sintering mechanism using aligned wires , 1976 .
[232] H. Exner,et al. Shrinkage and Rearrangement during Sintering of Glass Spheres , 1975 .
[233] W. Huppmann. Sintering in the Presence of Liquid Phase , 1975 .
[234] D. Johnson,et al. New Method of Obtaining Volume, Grain‐Boundary, and Surface Diffusion Coefficients from Sintering Data , 1969 .
[235] F. Nichols. Theory of sintering of wires by surface diffusion , 1968 .
[236] F. Thümmler,et al. The sintering process , 1967 .
[237] D. Frederick,et al. Developments in theoretical and applied mechanics , 1963 .
[238] J. Frenkel. Viscous Flow of Crystalline Bodies under the Action of Surface Tension , 1945 .
[239] S. Sundaresun. Sintering with Rigid Inclusions : Pair Interactions , 2022 .