Verfügbarkeit: Mechanical design, materials and manufacturing /

Mechanical design, materials and manufacturing /:

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Kale, Sandip A. (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York : Nova Science Publishers, Inc., [2019]
Schriftenreihe:	Mechanical engineering theory and applications.
Schlagworte:	Machinery. Materials. Machines. Matériaux. machinery. TECHNOLOGY & ENGINEERING > Mechanical. Machinery Materials
Online-Zugang:	Volltext
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781536147926 1536147923

Internformat

MARC


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490	1		\|a Mechanical engineering theory and applications
504			\|a Includes bibliographical references and index.
505	0		\|a Intro; Contents; Preface; Chapter 1; Finite Element Analysis of Three DoF Strain Gauge Force Transducer; Abstract; 1. Introduction; 2. Strain Gauge Based Force Sensing; 3. Transducer Design; 3.1 Converting of Cartesian Coordinates; 4. Finite Element Analysis; 4.1 Material Properties; 4.2 Meshing; 4.3 Loading Conditions; 5. Results; 6. Observations; Conclusion; References; Chapter 2; The Basic Principle of Calculation and Analysis of the Defective Structure of Solids; Abstract; 1. Introduction; 2. High Temperature Impurity Precipitation
505	8		\|a 3. Precipitation of the Impurity in Accordance with the Model of the Solid State of Vlasov4. Formation of Secondary Structural Imperfections; 5. Controlling the Defective Structure of Crystals; 6. The Possibility of Applying The Model of High-Temperature Precipitation For Other Solids; Conclusion; References; Advanced Methods Used in Molecular Dynamics Simulation of Macromolecules; Chapter 4; Study on Error in Sigmoidal Function Generation of 4R Mechanism; Abstract; 1. Introduction; 2. Kinematic Synthesis; 2.1. Four Precision Point Synthesis; 2.2. Five Precision Point Synthesis
505	8		\|a 3. Optimization of the Structural Error3.1. Modifying the Design Equation for Four and Five Presicion Points; 3.2. Optimization for Four and Five Presicion Points; 4. Results and Discussion; Conclusion; References; Chapter 5; Identifying Transfer Vertex from the Adjacency Matrix for Epicyclic Gear Trains; Abstract; 1. Introduction; 1.1. Linkage Adjacency Matrix; 1.2. Hamming Procedure; 1.3. Rotational Analysis; 1.4. Example; 2. Intelligent Methods; 2.1. Example; Conclusion; References; Chapter 6; 3-D Simulation Studies on Strengthening of Beam-Column Joint; Abstract; 1. Introduction
505	8		\|a 2. Material Properties3. Model Validation; 4. Convergence Study; 5. Results and Discussions; Conclusion; References; Chapter 7; Nanomaterials, Ceramic Bulk and Bioceramics: Synthesis, Properties and Applications; Abstract; Abbreviations; 1. Nanomaterials; 1.1. Introduction; 1.2. Ultrafine Particles; 1.3. Nanomaterials; 1.4. History and Advances of Nanomaterials; 1.5. Classification of Nanomaterials; 1.6. Importance of Nanomaterials; 2. Ceramics; 2.1. Synthesis; 2.2. Sintering; 2.3. History; 2.4. Classification of Ceramics; 2.4.1. Heavy Clay Wares; 2.4.2. Refractories; 2.4.3. Special Ceramics
505	8		\|a 2.4.4. Pottery (Whitewares)2.5. Properties of Ceramics; 2.5.1. Plasticity; 2.5.2. Factors Affecting Plasticity; 2.5.3. Determination of Plasticity; 2.5.3.1. Pfefferkorn Test; 2.5.3.2. Atterberg Plasticity Test; 2.5.3.3. Test Methods; 2.6. Raw Materials; 2.6.1. Fillers; 2.6.2. Quartz Sand; 2.6.3. Flints; 2.6.3.1. Chalk Flint; 2.6.3.2. Wash Mill Flints; 2.6.3.3. Beach Flints; 2.6.4. Fluxes; 2.6.4.1. Feldspars; 2.6.4.2. Nepheline Syenite; 2.6.4.3. Cornish Stone; 2.6.4.4. Talc; 2.6.5. Clyas; 2.6.6. Limestone; 2.7. Methods of Investigation; 2.7.1. Densification Parameters
588	0		\|a Online resource; title from digital title page (viewed on April 23, 2019).
650		0	\|a Machinery. \|0 http://id.loc.gov/authorities/subjects/sh85079362
650		0	\|a Materials. \|0 http://id.loc.gov/authorities/subjects/sh85082065
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650		7	\|a Machinery \|2 fast
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700	1		\|a Kale, Sandip A., \|e editor.
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776	0	8	\|i Print version: \|t Mechanical design, materials and manufacturing. \|d Hauppauge, New York : Nova Science Publishers, Inc., [2019] \|z 9781536147919 \|w (DLC) 2018060478
830		0	\|a Mechanical engineering theory and applications.
856	4	0	\|l FWS01 \|p ZDB-4-EBA \|q FWS_PDA_EBA \|u https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2096486 \|3 Volltext
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contents	Intro; Contents; Preface; Chapter 1; Finite Element Analysis of Three DoF Strain Gauge Force Transducer; Abstract; 1. Introduction; 2. Strain Gauge Based Force Sensing; 3. Transducer Design; 3.1 Converting of Cartesian Coordinates; 4. Finite Element Analysis; 4.1 Material Properties; 4.2 Meshing; 4.3 Loading Conditions; 5. Results; 6. Observations; Conclusion; References; Chapter 2; The Basic Principle of Calculation and Analysis of the Defective Structure of Solids; Abstract; 1. Introduction; 2. High Temperature Impurity Precipitation 3. Precipitation of the Impurity in Accordance with the Model of the Solid State of Vlasov4. Formation of Secondary Structural Imperfections; 5. Controlling the Defective Structure of Crystals; 6. The Possibility of Applying The Model of High-Temperature Precipitation For Other Solids; Conclusion; References; Advanced Methods Used in Molecular Dynamics Simulation of Macromolecules; Chapter 4; Study on Error in Sigmoidal Function Generation of 4R Mechanism; Abstract; 1. Introduction; 2. Kinematic Synthesis; 2.1. Four Precision Point Synthesis; 2.2. Five Precision Point Synthesis 3. Optimization of the Structural Error3.1. Modifying the Design Equation for Four and Five Presicion Points; 3.2. Optimization for Four and Five Presicion Points; 4. Results and Discussion; Conclusion; References; Chapter 5; Identifying Transfer Vertex from the Adjacency Matrix for Epicyclic Gear Trains; Abstract; 1. Introduction; 1.1. Linkage Adjacency Matrix; 1.2. Hamming Procedure; 1.3. Rotational Analysis; 1.4. Example; 2. Intelligent Methods; 2.1. Example; Conclusion; References; Chapter 6; 3-D Simulation Studies on Strengthening of Beam-Column Joint; Abstract; 1. Introduction 2. Material Properties3. Model Validation; 4. Convergence Study; 5. Results and Discussions; Conclusion; References; Chapter 7; Nanomaterials, Ceramic Bulk and Bioceramics: Synthesis, Properties and Applications; Abstract; Abbreviations; 1. Nanomaterials; 1.1. Introduction; 1.2. Ultrafine Particles; 1.3. Nanomaterials; 1.4. History and Advances of Nanomaterials; 1.5. Classification of Nanomaterials; 1.6. Importance of Nanomaterials; 2. Ceramics; 2.1. Synthesis; 2.2. Sintering; 2.3. History; 2.4. Classification of Ceramics; 2.4.1. Heavy Clay Wares; 2.4.2. Refractories; 2.4.3. Special Ceramics 2.4.4. Pottery (Whitewares)2.5. Properties of Ceramics; 2.5.1. Plasticity; 2.5.2. Factors Affecting Plasticity; 2.5.3. Determination of Plasticity; 2.5.3.1. Pfefferkorn Test; 2.5.3.2. Atterberg Plasticity Test; 2.5.3.3. Test Methods; 2.6. Raw Materials; 2.6.1. Fillers; 2.6.2. Quartz Sand; 2.6.3. Flints; 2.6.3.1. Chalk Flint; 2.6.3.2. Wash Mill Flints; 2.6.3.3. Beach Flints; 2.6.4. Fluxes; 2.6.4.1. Feldspars; 2.6.4.2. Nepheline Syenite; 2.6.4.3. Cornish Stone; 2.6.4.4. Talc; 2.6.5. Clyas; 2.6.6. Limestone; 2.7. Methods of Investigation; 2.7.1. Densification Parameters
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discipline	Maschinenbau / Maschinenwesen
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series	Mechanical engineering theory and applications.
series2	Mechanical engineering theory and applications
spelling	Mechanical design, materials and manufacturing / Sandip A. Kale, editor. New York : Nova Science Publishers, Inc., [2019] 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Mechanical engineering theory and applications Includes bibliographical references and index. Intro; Contents; Preface; Chapter 1; Finite Element Analysis of Three DoF Strain Gauge Force Transducer; Abstract; 1. Introduction; 2. Strain Gauge Based Force Sensing; 3. Transducer Design; 3.1 Converting of Cartesian Coordinates; 4. Finite Element Analysis; 4.1 Material Properties; 4.2 Meshing; 4.3 Loading Conditions; 5. Results; 6. Observations; Conclusion; References; Chapter 2; The Basic Principle of Calculation and Analysis of the Defective Structure of Solids; Abstract; 1. Introduction; 2. High Temperature Impurity Precipitation 3. Precipitation of the Impurity in Accordance with the Model of the Solid State of Vlasov4. Formation of Secondary Structural Imperfections; 5. Controlling the Defective Structure of Crystals; 6. The Possibility of Applying The Model of High-Temperature Precipitation For Other Solids; Conclusion; References; Advanced Methods Used in Molecular Dynamics Simulation of Macromolecules; Chapter 4; Study on Error in Sigmoidal Function Generation of 4R Mechanism; Abstract; 1. Introduction; 2. Kinematic Synthesis; 2.1. Four Precision Point Synthesis; 2.2. Five Precision Point Synthesis 3. Optimization of the Structural Error3.1. Modifying the Design Equation for Four and Five Presicion Points; 3.2. Optimization for Four and Five Presicion Points; 4. Results and Discussion; Conclusion; References; Chapter 5; Identifying Transfer Vertex from the Adjacency Matrix for Epicyclic Gear Trains; Abstract; 1. Introduction; 1.1. Linkage Adjacency Matrix; 1.2. Hamming Procedure; 1.3. Rotational Analysis; 1.4. Example; 2. Intelligent Methods; 2.1. Example; Conclusion; References; Chapter 6; 3-D Simulation Studies on Strengthening of Beam-Column Joint; Abstract; 1. Introduction 2. Material Properties3. Model Validation; 4. Convergence Study; 5. Results and Discussions; Conclusion; References; Chapter 7; Nanomaterials, Ceramic Bulk and Bioceramics: Synthesis, Properties and Applications; Abstract; Abbreviations; 1. Nanomaterials; 1.1. Introduction; 1.2. Ultrafine Particles; 1.3. Nanomaterials; 1.4. History and Advances of Nanomaterials; 1.5. Classification of Nanomaterials; 1.6. Importance of Nanomaterials; 2. Ceramics; 2.1. Synthesis; 2.2. Sintering; 2.3. History; 2.4. Classification of Ceramics; 2.4.1. Heavy Clay Wares; 2.4.2. Refractories; 2.4.3. Special Ceramics 2.4.4. Pottery (Whitewares)2.5. Properties of Ceramics; 2.5.1. Plasticity; 2.5.2. Factors Affecting Plasticity; 2.5.3. Determination of Plasticity; 2.5.3.1. Pfefferkorn Test; 2.5.3.2. Atterberg Plasticity Test; 2.5.3.3. Test Methods; 2.6. Raw Materials; 2.6.1. Fillers; 2.6.2. Quartz Sand; 2.6.3. Flints; 2.6.3.1. Chalk Flint; 2.6.3.2. Wash Mill Flints; 2.6.3.3. Beach Flints; 2.6.4. Fluxes; 2.6.4.1. Feldspars; 2.6.4.2. Nepheline Syenite; 2.6.4.3. Cornish Stone; 2.6.4.4. Talc; 2.6.5. Clyas; 2.6.6. Limestone; 2.7. Methods of Investigation; 2.7.1. Densification Parameters Online resource; title from digital title page (viewed on April 23, 2019). Machinery. http://id.loc.gov/authorities/subjects/sh85079362 Materials. http://id.loc.gov/authorities/subjects/sh85082065 Machines. Matériaux. machinery. aat TECHNOLOGY & ENGINEERING Mechanical. bisacsh Machinery fast Materials fast Kale, Sandip A., editor. has work: Mechanical design, materials and manufacturing (Text) https://id.oclc.org/worldcat/entity/E39PCG4VFw4VXx4Wh3cTr8kr4m https://id.oclc.org/worldcat/ontology/hasWork Print version: Mechanical design, materials and manufacturing. Hauppauge, New York : Nova Science Publishers, Inc., [2019] 9781536147919 (DLC) 2018060478 Mechanical engineering theory and applications. FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2096486 Volltext
spellingShingle	Mechanical design, materials and manufacturing / Mechanical engineering theory and applications. Intro; Contents; Preface; Chapter 1; Finite Element Analysis of Three DoF Strain Gauge Force Transducer; Abstract; 1. Introduction; 2. Strain Gauge Based Force Sensing; 3. Transducer Design; 3.1 Converting of Cartesian Coordinates; 4. Finite Element Analysis; 4.1 Material Properties; 4.2 Meshing; 4.3 Loading Conditions; 5. Results; 6. Observations; Conclusion; References; Chapter 2; The Basic Principle of Calculation and Analysis of the Defective Structure of Solids; Abstract; 1. Introduction; 2. High Temperature Impurity Precipitation 3. Precipitation of the Impurity in Accordance with the Model of the Solid State of Vlasov4. Formation of Secondary Structural Imperfections; 5. Controlling the Defective Structure of Crystals; 6. The Possibility of Applying The Model of High-Temperature Precipitation For Other Solids; Conclusion; References; Advanced Methods Used in Molecular Dynamics Simulation of Macromolecules; Chapter 4; Study on Error in Sigmoidal Function Generation of 4R Mechanism; Abstract; 1. Introduction; 2. Kinematic Synthesis; 2.1. Four Precision Point Synthesis; 2.2. Five Precision Point Synthesis 3. Optimization of the Structural Error3.1. Modifying the Design Equation for Four and Five Presicion Points; 3.2. Optimization for Four and Five Presicion Points; 4. Results and Discussion; Conclusion; References; Chapter 5; Identifying Transfer Vertex from the Adjacency Matrix for Epicyclic Gear Trains; Abstract; 1. Introduction; 1.1. Linkage Adjacency Matrix; 1.2. Hamming Procedure; 1.3. Rotational Analysis; 1.4. Example; 2. Intelligent Methods; 2.1. Example; Conclusion; References; Chapter 6; 3-D Simulation Studies on Strengthening of Beam-Column Joint; Abstract; 1. Introduction 2. Material Properties3. Model Validation; 4. Convergence Study; 5. Results and Discussions; Conclusion; References; Chapter 7; Nanomaterials, Ceramic Bulk and Bioceramics: Synthesis, Properties and Applications; Abstract; Abbreviations; 1. Nanomaterials; 1.1. Introduction; 1.2. Ultrafine Particles; 1.3. Nanomaterials; 1.4. History and Advances of Nanomaterials; 1.5. Classification of Nanomaterials; 1.6. Importance of Nanomaterials; 2. Ceramics; 2.1. Synthesis; 2.2. Sintering; 2.3. History; 2.4. Classification of Ceramics; 2.4.1. Heavy Clay Wares; 2.4.2. Refractories; 2.4.3. Special Ceramics 2.4.4. Pottery (Whitewares)2.5. Properties of Ceramics; 2.5.1. Plasticity; 2.5.2. Factors Affecting Plasticity; 2.5.3. Determination of Plasticity; 2.5.3.1. Pfefferkorn Test; 2.5.3.2. Atterberg Plasticity Test; 2.5.3.3. Test Methods; 2.6. Raw Materials; 2.6.1. Fillers; 2.6.2. Quartz Sand; 2.6.3. Flints; 2.6.3.1. Chalk Flint; 2.6.3.2. Wash Mill Flints; 2.6.3.3. Beach Flints; 2.6.4. Fluxes; 2.6.4.1. Feldspars; 2.6.4.2. Nepheline Syenite; 2.6.4.3. Cornish Stone; 2.6.4.4. Talc; 2.6.5. Clyas; 2.6.6. Limestone; 2.7. Methods of Investigation; 2.7.1. Densification Parameters Machinery. http://id.loc.gov/authorities/subjects/sh85079362 Materials. http://id.loc.gov/authorities/subjects/sh85082065 Machines. Matériaux. machinery. aat TECHNOLOGY & ENGINEERING Mechanical. bisacsh Machinery fast Materials fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85079362 http://id.loc.gov/authorities/subjects/sh85082065
title	Mechanical design, materials and manufacturing /
title_auth	Mechanical design, materials and manufacturing /
title_exact_search	Mechanical design, materials and manufacturing /
title_full	Mechanical design, materials and manufacturing / Sandip A. Kale, editor.
title_fullStr	Mechanical design, materials and manufacturing / Sandip A. Kale, editor.
title_full_unstemmed	Mechanical design, materials and manufacturing / Sandip A. Kale, editor.
title_short	Mechanical design, materials and manufacturing /
title_sort	mechanical design materials and manufacturing
topic	Machinery. http://id.loc.gov/authorities/subjects/sh85079362 Materials. http://id.loc.gov/authorities/subjects/sh85082065 Machines. Matériaux. machinery. aat TECHNOLOGY & ENGINEERING Mechanical. bisacsh Machinery fast Materials fast
topic_facet	Machinery. Materials. Machines. Matériaux. machinery. TECHNOLOGY & ENGINEERING Mechanical. Machinery Materials
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2096486
work_keys_str_mv	AT kalesandipa mechanicaldesignmaterialsandmanufacturing

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