0.2mm/0.3mm/0.4mm/0.5mm MK8 3d Printer Nozzle 3d Printer Parts 4mm Nozzle 3d Nozzle Makerbot Smart Extruder 3D Printer Extruder Nozzle

Feature:

Filament Size: 1.75mm
Nozzle Size: 0.2mm/0.3mm/0.4mm/0.5mm
Material: Brass Silver Plating
Color: Silver

Package included:

1 x Brass 3D Printer Extruder Nozzle

Product Features

  • Feature: Filament Size: 1.75mm. Nozzle Size: 0.2mm/0.3mm/0.4mm/0.5mm.
  • Material: Brass Silver Plating. Color: Silver.
  • Package included: 1 x Brass 3D Printer Extruder Nozzle

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1pc 3030 450mm CNC 3D Printer Parts European Standard Anodized V-Slot Linear Rail Aluminum Profile Extrusion for DIY 3D printer

Please note : Picture just as a reference.the actual delivered goods shall prevail ! Type : European standard 3030 Aluminum Profile Material : Aluminum 6063-T5 Please check which Length and the Quantity you need . Inciuding : 1pc Aluminum Profile

Product Features

  • High-quality

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4pc 2020 700mm CNC 3D Printer Parts European Standard Anodized V-Slot Linear Rail Aluminum Profile Extrusion for DIY 3D printer

Please note : Picture just as a reference.the actual delivered goods shall prevail ! Type : European standard 2020 Aluminum Profile Material : Aluminum 6063-T5 Please check which Length and the Quantity you need . Inciuding : 4pc Aluminum Profile

Product Features

  • High-quality

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Navy Additive Manufacturing (AM): Adding Parts, Subtracting Steps – 3D Printing, Tooling, Aerospace, Binder Jetting, Directed Energy Deposition, Material Extrusion, Powder Fusion, Photopolymerization

This report examines additive manufacturing (AM) and describes its potential impact on the Navy’s Supply Chain Management processes. Included in the analysis is the implementation of 3D printing technology and how it could impact the Navy’s future procurement processes, specifically based on a conducted analysis of the automotive aerospace industry. Industry research and development has identified multiple dimensions of AM technology, including material variety, cost saving advantages, and lead-time minimizations for manufacturing products. This project is designed to provide the Navy with a recommendation based on an in-depth industry case-study analysis. CHAPTER I * INTRODUCTION * A. OVERVIEW * B. REPORT ORGANIZATION * CHAPTER II * LITERATURE REVIEW * A. ADDITIVE MANUFACTURING HISTORY * B. ADDITIVE MANUFACTURING OVERVIEW * C. ADDITIVE MANUFACTURING PROCESSES AND METHODS * 1. Binder Jetting * 2. Directed Energy Deposition * 3. Material Extrusion * 4. Material Jetting * 5. Powder Bed Fusion * 6. Sheet Lamination * 7. Vat Photopolymerization * D. ADDITIVE MANUFACTURING USES AND BENEFITS * E. ADDITIVE MANUFACTURING CHALLENGES, ISSUES, AND CONCERNS * F. NAVY PROCUREMENT PROCESS * G. SUMMARY * CHAPTER III * METHODOLOGY * A. MULTIPLE CASE-STUDY ANALYSIS * B. IMPLEMENTATION * C. SUMMARY * CHAPTER IV * CASE ANALYSIS * A. BIG INDUSTRY: ADDITIVE MANUFACTURING IN AVIATION AND AUTOMOTIVE MANUFACTURING * 1. Automotive Industry * a. General Motors Financial Troubles * b. Costs * c. Additive Manufacturing in Tooling Process * d. Application in Production of Parts * 2. Aerospace Industry * 3. Boeing Aviation Corporation * 4. Additive Manufacturing Developments * B. CONCLUSIONS * CHAPTER V * IMPLEMENTATION * A. INDUSTRY APPLICATIONS * B. MILITARY APPLICATIONS * C. IMPLEMENTATION PROCESS AND CRITERIA * D. MILITARY ISSUES WITH AM * 1. Parts Testing and Certification * 2. Information Security * 3. Intellectual Property Infringement * 4. Personnel Training and Skill Set Development * E. ADDITIVE MANUFACTURING PROCESSES DEPLOYED * CHAPTER VI * CONCLUSION * A. SUMMARY

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