Additive and traditionally manufactured components a comparative analysis of mechanical properties /

Additive and traditionally manufactured components [electronic resource] : a comparative analysis of mechanical properties / Joshua Pelleg.

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Bibliographic Details
Online Access: Full Text (via ScienceDirect)
Main Author: Pelleg, Joshua
Format: Electronic eBook
Language:English
Published: Amsterdam : Elsevier, 2020.
Subjects:
Additive manufacturing.

MARC

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500 |a Description based upon print version of record. 
505 0 |a Intro -- Additive and Traditionally Manufactured Components: A Comparative Analysis of Mechanical Properties -- Copyright -- Dedication -- Contents -- Preface -- About the author -- Chapter One: What is additive manufacturing? -- Chapter Two: Fabrication -- 2.1. Fused deposition method (FDM) -- 2.1.1. Melt properties -- 2.1.2. Liquefier -- 2.1.3. Heat convection -- 2.1.4. Pressure drop estimation -- 2.1.5. Layer deposition and stability -- 2.1.6. Road spreading -- 2.1.7. Road cooling and polymer bonding -- 2.2. Powder-bed fusion (PBF) -- 2.3. Inkjet printing -- 2.4. Stereolithography (SLA) 
505 8 |a 2.4.1. The state of the resin (photopolymer) -- 2.4.2. The maximum cure depth -- 2.4.3. The cured line width -- 2.4.4. Laser scan velocity -- 2.5. Direct energy deposition (DED) -- 2.5.1. Thermal model -- 2.6. Laminated object manufacturing (LOM) -- References -- Further reading -- Chapter Three: Testing: Comparison of AM data with traditionally fabricated -- 3.1. Tensile tests -- 3.1.1. Ti-6Al-4V: AM tensile properties -- 3.1.2. Al alloy AA6061: AM tensile properties -- 3.1.2.1. Conventionally produced (AM) AA6061 -- 3.1.3. Stainless steel 304L: AM tensile properties. 
505 8 |a 3.1.3.1. Conventionally produced SS 304L -- 3.1.4. Ceramic -- 3.1.4.1. AM alumina -- 3.1.4.2. Conventionally fabricated alumina -- 3.2. Compression tests -- 3.2.1. Ti-6Al-4V -- 3.2.2. Conventionally fabricated Ti-6Al-4V -- 3.2.3. Al alloys-Al 60613 -- 3.2.4. Conventionally fabricated Al 6061 -- 3.2.5. AM stainless steel 304L -- 3.2.5.1. Conventionally fabricated stainless steel 304L -- 3.2.6. Ceramics-Alumina -- 3.2.7. Conventionally fabricated alumina (Al2O3) -- 3.2.7.1. Effect of orientation and temperature -- 3.3. Indentation (hardness) -- 3.3.1. Ti-6Al-4V. 
505 8 |a 3.3.1.1. Conventionally produced Ti-6Al-4V -- 3.3.2. Aluminum alloy (Al6061) -- 3.3.3. Conventionally fabricated Al 6061 -- 3.3.4. Stainless steel 304L -- 3.3.4.1. Conventionally produced 304L stainless steel -- 3.3.5. Alumina -- 3.3.6. Conventionally produced alumina -- 3.3.6.1. Temperature dependence -- 3.3.6.2. Hardness of coatings -- 3.3.6.3. Hardness of alumina films -- References -- Further reading -- Chapter Four: Dislocations in AM and traditional manufacturing: A comparison -- 4.1. Introduction -- 4.1.1. In AM Ti-6Al-4V -- 4.1.2. In traditionally fabricated Ti-6Al-4V. 
505 8 |a 4.1.3. Motion of dislocations -- 4.2. Introduction AA6061 -- 4.2.1. AM of AA6061 Al alloy -- 4.2.2. Dislocations in conventionally produced Al AA6061 -- 4.2.2.1. Pinning of dislocations in 6061 -- 4.2.2.2. The strain effect in 6061 -- 4.3. In stainless steel 304L -- 4.3.1. Introduction -- 4.3.2. In AM 304L stainless steel -- 4.3.3. In conventionally fabricated 304L stainless steel -- 4.4. In alumina (Al2O3) -- 4.4.1. In conventionally fabricated alumina -- References -- Further reading -- Chapter Five: Deformation in AM and traditional manufacturing: A comparison -- 5.1. Introduction. 
500 |a 5.1.1. Deformation in AM Ti-6Al-4V. 
500 |a Includes index. 
650 0 |a Additive manufacturing.  |0 http://id.loc.gov/authorities/subjects/sh2020000052. 
776 0 8 |i Print version:  |a Pelleg, Joshua  |t Additive and Traditionally Manufactured Components : A Comparative Analysis of Mechanical Properties  |d San Diego : Elsevier,c2020. 
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