Udemy - Thermodynamics and Heat Transfer in 3D Printing Masterclass

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Udemy - Thermodynamics and Heat Transfer in 3D Printing Masterclass (Size: 3.3 GB)
  Bonus Resources.txt 102.4 B
  Get Bonus Downloads Here.url 204.8 B
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  1 - Fundamentals of Thermodynamics in 3D Printing
  1 - Introduction.mp4 65.7 MB
  2 - Heat Transfer Mechanisms
  3 - Heat Distribution in Extrusion Processes
  10 - Heat Transfer in Metal Extrusion (MEX).mp4 193.2 MB
  4 - Cooling Rates and Crystallization
  11 - Polymer Crystallization Kinetics.mp4 154.4 MB
  12 - Cooling Rate Effects on Microstructure.mp4 178.2 MB
  13 - Controlled Cooling Strategies.mp4 203.7 MB
  5 - Thermal Stresses and Warping Theory
  14 - Fundamentals of Thermal Stress.mp4 157.6 MB
  15 - Warping Mechanisms and Prediction.mp4 143.6 MB
  16 - Mitigation Strategies and Solutions.mp4 182.8 MB
  6 - Real-World Case Studies and Applications
  17 - Case Study 1 Aerospace Component Manufacturing (UK).mp4 208 MB
  18 - Case Study 2 Medical Implant Production (USA).mp4 156.6 MB
  19 - Example 1 Automotive Part Optimization (Germany).mp4 184.8 MB
  20 - Example 2 Construction Component Printing (Australia).mp4 195.9 MB
  8 - FDM Extrusion Thermal Analysis.mp4 121.4 MB
  9 - Nozzle Temperature Profiles.mp4 160.2 MB
  5 - Conduction in 3D Printing.mp4 212.4 MB
  6 - Convection Heat Transfer.mp4 167.6 MB
  7 - Radiation and Combined Heat Transfer.mp4 173.8 MB
  2 - Introduction to Thermodynamics for AM.mp4 174.4 MB
  3 - Temperature Ranges and Material States.mp4 169.2 MB
  4 - Energy Balance in 3D Printing Systems.mp4 209.7 MB

Description


Thermodynamics & Heat Transfer in 3D Printing Masterclass
https://WebToolTip.com
Published 6/2026

MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch

Language: English | Duration: 2h 30m | Size: 3.33 GB
Master the Thermal Science Behind Additive Manufacturing Conduction, Convection, Radiation, Cooling, Warping & Cases.
What you'll learn

Apply the First and Second Laws of Thermodynamics to additive manufacturing processes

Analyze energy balance equations for FDM, MEX, and industrial 3D printing systems

Understand temperature ranges, material states, and processing windows for PLA, ABS, PETG, and PEEK

Master conduction, convection, and radiation heat transfer in 3D printing context

Calculate heat flux, thermal conductivity, and temperature gradients using Fourier's Law

Interpret nozzle temperature profiles and optimize melt-zone behavior

Analyze polymer crystallization kinetics and cooling rate effects on microstructure

Design controlled cooling strategies for improved mechanical properties

Predict thermal stresses and warping using engineering principles

Evaluate real-world case studies from aerospace, medical, automotive, and construction industries

Improve printer energy efficiency through insulation, enclosure design, and power management

Diagnose thermal defects and develop engineering-grade solutions
Requirements

Diagnose thermal defects and develop engineering-grade solutions

Familiarity with 3D printing concepts or hands-on printing experience is helpful but not mandatory

No prior thermodynamics coursework required concepts are built from the ground up

A computer or mobile device to access course content

Curiosity about engineering, materials science, and additive manufacturing

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