- Platform
- edX
- Provider
- TenarisUniversity
- Effort
- 2-3 hours/week
- Length
- 4 weeks
- Language
- English
- Credentials
- Paid Certificate Available
- Course Link
Overview
Computer Numerical Control (CNC) Machining is the process through which computers control machine-based processes in manufacturing. The kinds of machines controlled include lathes, mills, routers and grinders – all used for manufacturing of metal and plastic products.
In this course, you’ll learn the ins-and-outs of CNC machining; building the essential knowledge to develop and operate a project with a CNC machine.
From plan interpretation to machining and quality control, you will learn how to make the right decision in every stage of a project through videos and interactive activities.
We invite you to take part of the “Jaque Mate” company project, the objective of which is to produce chess pieces.
Are you up for the challenge?
What you'll learn
Taught by
Jorge Muract
Computer Numerical Control (CNC) Machining is the process through which computers control machine-based processes in manufacturing. The kinds of machines controlled include lathes, mills, routers and grinders – all used for manufacturing of metal and plastic products.
In this course, you’ll learn the ins-and-outs of CNC machining; building the essential knowledge to develop and operate a project with a CNC machine.
From plan interpretation to machining and quality control, you will learn how to make the right decision in every stage of a project through videos and interactive activities.
We invite you to take part of the “Jaque Mate” company project, the objective of which is to produce chess pieces.
Are you up for the challenge?
What you'll learn
- How to identify the right machine tool for the production process.
- Selection of cutting tools according to the ISO standard.
- How to develop a basic CNC code.
- Implementation of necessary pre-production adjustments.
Syllabus
Week 1: About the course: Prologue. Meet our team. Frequently Asked Questions. Interpretation of the plans and order: Simulation - The Order. Why a CNC machine?
Week 2: Analysis of processes and CNC machines: CNC machine elements. Coordinate Systems. Simulation - The machine. Selection of the cutting tool: Introduction to cutting tool selection. Simulation - The tool.
Week 3: CNC Code Generation: Introduction to programming. Trajectories and tool control. Simulation - The code. Machine code implementation: Program Verification and Implementation. Machine preparation and operation. Final Controls. Simulation - Production.
Week 4: Quality control and piece measurement: Quality control. Simulation - Delivery.
Final Exam.
Week 1: About the course: Prologue. Meet our team. Frequently Asked Questions. Interpretation of the plans and order: Simulation - The Order. Why a CNC machine?
Week 2: Analysis of processes and CNC machines: CNC machine elements. Coordinate Systems. Simulation - The machine. Selection of the cutting tool: Introduction to cutting tool selection. Simulation - The tool.
Week 3: CNC Code Generation: Introduction to programming. Trajectories and tool control. Simulation - The code. Machine code implementation: Program Verification and Implementation. Machine preparation and operation. Final Controls. Simulation - Production.
Week 4: Quality control and piece measurement: Quality control. Simulation - Delivery.
Final Exam.
Taught by
Jorge Muract