Nikita Kapustin – Plasticity 3D iPhone Product Design Course

Free Download Nikita Kapustin – Plasticity 3D iPhone Product Design Course is an engaging 3D modeling course specifically designed for newcomers to Plasticity. This course is aimed at helping learners transition from basic concepts to creating a high-quality 3D model of the iPhone 14 Pro Max in just over 3 hours. It simplifies complex 3D design techniques, making them accessible for beginners, while maintaining an exciting and engaging learning experience.

Free Download Udemy – Direct Modeling In Plasticity – Upper Body

Published: 12/2024
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 12.44 GB | Duration: 8h 28m
From Zero to Hero Learn the basic to Advance in Plasticity by modeling complete upper body of game character

Free Download Udemy – Direct Modeling In Plasticity – Lower Body

Published: 12/2024
Created by: Edward Boateng
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English | Duration: 14 Lectures ( 5h 23m ) | Size: 4.63 GB

Free Download IUTAM Symposium on Micromechanics of Plasticity and Damage of Multiphase Materials: Proceedings of the IUTAM Symposium held in Sèvres, Paris, France, 29 August – 1 September 1995 By A. Acharya, J. L. Bassani (auth.), Prof. André Pineau, Prof. André Zaoui (eds.)
1996 | 430 Pages | ISBN: 940107285X | PDF | 14 MB
The IUT AM Symposium on "Micromechanics of Plasticity and Damage of Multiphase Materials" was held in Sevres, Paris, France, 29 August – 1 September 1995. The Symposium was attended by 83 persons from 18 countries. In addition 17 young French students attended the meeting. During the 4 day meeting, a total of 55 papers were presented, including 24 papers in the poster sessions. The meeting was divided into 7 oral and 3 poster sessions. The 7 oral sessions were the following: – Plasticity and Viscoplasticity I and II; – Phase transformations; – Damage I and II; – Statistical and geometrical aspects; – Cracks and interfaces. Each poster session was introduced by a Rapporteur, as follows: – Session I (Plasticity and Viscoplasticity): G. Cailletaud; – Session 2 (Damage): D. Franc;:ois; – Session 3 (Phase transformation; statistical and geometrical aspects): D. Jeulin. The main purpose of the Symposium was the discussion of the state of the art in the development of micromechanical models used to predict the macroscopic mechanical behaviour of mUltiphase solid materials. These materials consist of at least two chemically different phases, present either initially or formed during plastic deformation, when a strain-induced phase transformation takes place. One session was devoted to the latter case. Continuously strengthened composite materials, containing long fibers, were out of the scope of the Symposium.

Free Download Multidisciplinary Tools for Investigating Synaptic Plasticity By Jane Beil, Isabelle M. Mansuy, Thorsten Buch (auth.), Peter Nguyen (eds.)
2013 | 274 Pages | ISBN: 1627035168 | PDF | 5 MB
Investigations involving incisive mechanistic dissection of various types of synaptic plasticity have revealed that it plays key roles in neural development, sensory information processing, cortical remapping following brain injury, perception, and behavioral learning and memory. Disruptions of synaptic plasticity may underlie neurological and behavioral disorders such as Alzheimer disease, Fragile-X syndrome, autism, and drug addiction. Multidisciplinary Tools for Investigating Synaptic Plasticity, therefore, assembles expert contributions that highlight techniques and strategies used in probing the cellular and molecular mechanisms of synaptic plasticity in the nervous systems of vertebrate and invertebrate species. Divided into three sections, this meticulous volume describes biochemical and genetic strategies for studying synaptic plasticity, behavior, neural development, and synaptogenesis, and also includes cellular electrophysiological and optical methods for interrogating a diverse array of mechanistic issues. As part of the Neuromethods series, this book contains the kind of detail and key implementation advice that maximizes successful results.Authoritative and invaluable, Multidisciplinary Tools for Investigating Synaptic Plasticity serves as an ideal primer for introducing researchers to specific techniques that will enhance their success at addressing novel questions in synaptic plasticity at the lab bench.

Free Download Synaptic Plasticity and the Mechanism of Alzheimer’s Disease By Marianne Renner, Antoine Triller (auth.), Dennis J. Selkoe, Antoine Triller, Yves Christen (eds.)
2008 | 183 Pages | ISBN: 3540763295 | PDF | 3 MB
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Free Download Plasticity of Pressure-Sensitive Materials By Holm Altenbach, Andreas Öchsner
2013 | 373 Pages | ISBN: 364240944X | PDF | 8 MB
Classical plasticity theory of metals is independent of the hydrostatic pressure. However if the metal contains voids or pores or if the structure is composed of cells, this classical assumption is no more valid and the influence of the hydrostatic pressure must be incorporated in the constitutive description. Looking at the microlevel, metal plasticity is connected with the uniform planes of atoms organized with long-range order. Planes may slip past each other along their close-packed directions. The result is a permanent change of shape within the crystal and plastic deformation. The presence of dislocations increases the likelihood of planes slipping.Nowadays, the theory of pressure sensitive plasticity is successfully applied to many other important classes of materials (polymers, concrete, bones etc.) even if the phenomena on the micro-level are different to classical plasticity of metals. The theoretical background of this phenomenological approach based on observations on the macro-level is described in detail in this monograph and applied to a wide range of different important materials in the last part of this book.

Free Download Plasticity CAD for artists 1.4.11 (x64) | 162.2 Mb
Unleash your creativity with Plasticity. With a workflow optimized for creativity, unparalleled fillets, and the most advanced modeling tools, Plasticity is the perfect choice for those who demand the best. Plus, with no subscriptions, you own your software. Try it free for 30 days and see the difference for yourself.

Free Download Synaptic Plasticity: Dynamics, Development and Disease By Ulrich Thomas, Stephan J. Sigrist (auth.), Michael R. Kreutz, Carlo Sala (eds.)
2012 | 622 Pages | ISBN: 3709109310 | PDF | 11 MB
This book introduces the current concepts of molecular mechanisms in synaptic plasticity and provides a comprehensive overview of cutting-edge research technology used to investigate the molecular dynamics of the synapses. It explores current concepts on activity-dependent remodeling of the synaptic cytoskeleton and presents the latest ideas on the different forms of plasticity in synapses and dendrites. Synaptic Plasticity in Health and Disease not only supplies readers with extensive knowledge on the latest developments in research, but also with important information on clinical and applied aspects. Changes in spine synapses in different brain disease states, so-called synaptopathies, are explained and described by experts in the field. By outlining basic research findings as well as physiological and pathophysiological impacts on synaptic plasticity, the book represents an essential state-of-the-art work for scientists in the fields of biochemistry, molecular biology and the neurosciences, as well as for doctors in neurology and psychiatry alike.

Free Download Field Theory of Multiscale Plasticity
English | 2024 | ISBN: 1108836607 | 860 Pages | PDF | 216 MB
This unique book provides a concise and systematic treatment of foundational material on dislocations and metallurgy and an up-to-date discussion of multiscale modeling of materials, which ultimately leads to the field theory of multiscale plasticity (FTMP). Unlike conventional continuum models, this approach addresses the evolving inhomogeneities induced by deformation, typically as dislocation substructures like dislocation cells, as well as their interplay at more than one scale. This is an impressively visual text with many and varied examples and viewgraphs. In particular, the book presents a feasible constitutive model applicable to crystal plasticity-based finite element method (FEM) simulations. It will be an invaluable resource, accessible to undergraduate and graduate students as well as researchers in mechanical engineering, solid mechanics, applied physics, mathematics, materials science, and technology.