The temperatures that develop in a machining process have a decisive effect on the workpiece quality and the production rate achieved, and even on the number of machine downtimes that occur.
All forms of tool wear are directly affected by the combined effects of the mechanical and the thermal load the tool is subjected to. The temperatures can be estimated by taking account of the thermodynamic exchange between the tool, workpiece and chips.
Knowledge of how the thermal energy balance functions in a machining process is a fundamental tool in the toolbox of the modern professional machining technologist.
Getting Technical
Webinar Overview
Milling Cutter positioning. What it is? And why is it so important?
Part 1 - What you don't know about tool holders could hurt your manufacturing!
Machining mastery explored: Model-based machining advancements
Part 2 - What you don't know about tool holders could hurt your manufacturing!
Part 2 - Take full profit of advanced cutting materials
Machining Economics part 2
Machining Economics part 1
Technical Machining Strategy Part 1
Technical Machining Strategy Part 2
Part 1 - Take full profit of advanced cutting materials
Is average chip thickness an outdated concept?
Compensation Techniques For Smart And Sustainable Machining
The fascinating tale of microseconds and micrometres, and machining quality
Why geometry is the undisputed champion of efficient machining?
Part 2 - Structural analysis of tool deterioration: strategies for optimal machining performance
Part 1 - Structural analysis of tool deterioration: strategies for optimal machining performance
Some fundamental insights in applied machining thermo-dynamics
Machining Composite
