Certified Industrial Additive Manufacturing Associate

Certified Industrial Additive Manufacturing Associate

ABOUT COURSE

INTRODUCTION

Certified Industrial Additive Manufacturing Associate is ideal for students or individuals working in or seeking to work in additive manufacturing roles in automotive, aerospace, manufacturing and medical equipment. It is also ideal for university students and professionals as a capstone or standalone achievement to increase workforce readiness in additive manufacturing.

The course offers a training & industrial approach toward the task of reverse engineering for product development, optimization process and CAD modelling to develop rapid prototype model. Theoretical knowledge of concept and methodology in reverse engineering technology, design process and rapid tooling are demonstrated and explained.

COURSE OUTPUT

Perform reverse engineering processes and techniques through the digitizing scanning methods . Familiarize with optimization process using CAE tool

Generate CAD model from scanned data/CMM Trainees will be able to demonstrate simulation driven design method and approach in additive manufacturing for industrial products.

knowledge in conceptual design and engineering design for industrial products with additive manufacturing process.

Manipulate CAD data for Rapid prototype Perform prototyping and rapid tooling operations in the production of new products

Why attend this course?

Upskill/reskill and obtain certification from Universiti Teknologi Malaysia (UTM)

Duration

11 Days

Certification

German Malaysia Institute

PROGRAM PATHWAY

Course 1

REVERSE ENGINEERING IN AM

Duration: 1 Day

Course 2

CAD DESIGN & STYLING

Duration: 2 Days

Course 3

CONCEPTUAL DESIGN OPTIMIZATION

Duration: 3 Days

Course 4

Design Simulation & Analysis

Duration: 2 Days

Course 5

Rapid Prototyping application & post processing

Duration: 3 Days

PROGRAM 1: REVERSE ENGINEERING IN AM (1 DAY)

ABOUT PROGRAM

This program provides an overview on Additive Manufacturing (3D Printing) and reverse engineering which is a powerful tool for additive manufacturing process. The combination of both can greatly enhance product design as well as shorten the product development cycle.

Program Objectives

Explain the concept of reverse engineering technology:

– Perform reverse engineering processes and techniques through the digitizing/ scanning methods
– Generate CAD model from scanned data
– Manipulate CAD data for Rapid Prototyping

PROGRAM 2: CAD MODELLING (Altair INSPIRE STUDIO) & INSPIRE STURCTURE (CAD capabilities) (2 DAYS)

CAD MODELLING (Altair INSPIRE STUDIO)

Altair Inspire Studio is the new solution for innovative designers, architects, and digital artists to create, evaluate and visualize designs faster than ever before. With unrivalled flexibility and precision, its unique construction history feature along with multiple modelling techniques empowers users throughout the creative process.

INSPIRE STURCTURE (CAD capabilities)

Inspire Structure (CAD Capabilities) create, modify, and defeature solid models quickly, use PoIyNURBS to create free-form smooth geometry, and study multiple assembly configurations.

PROGRAM 3: CONCEPTUAL DESIGN OPTIMIZATION (3 DAYS)

ABOUT PROGRAM

The methodology and process flow for Simulation Driven Design and Optimization in Additive Manufacturing (AM) course will assists engineers and designers to achieve optimum weight and standard performance requirement before producing industrial products by applying 3D printing process.

MORE ABOUT PROGRAM

Topology or structural design simulation and optimization will be implemented to refine size and shape of the structural design by using Altair’s solidThinking Inspire as the innovative 3D CAD tool for concept design and optimization solution.

Validated and optimized product design will be manufactured by using as the reliable industrial grade 3D printer solution for additive manufacturing process.

PROGRAM 4: DESIGN SIMULATION & ANALYSIS (2 DAYS)

ABOUT PROGRAM

SimSolid is a structural analysis software developed specifically for rapidly evolving design processes. It eliminates geometry simplification and meshing, the two most time-consuming and expertise-extensive tasks done in traditional FEA, enabling the analysis of fully featured CAD assemblies in seconds to minutes without meshing. In this course, users will dive into the usage and possibilities of SimSolid by giving information about the operating method and then working on exercises with different models and problems.

PROGRAM OBJECTIVES

– Identify key aspects of SimSolid
– Utilize processing for design geometry and connections
– Employ loads and boundary conditions
– Setup problems, such as Modal Analysis, Structural Linear Analysis, Structural Nonlinear Analysis, Dynamic Analysis, Thermal Analysis
– Utilize post-processing and design studies

PROGRAM 5: RAPID PROTOTYPING & POST PROCESSING APPLICATION (3 DAYS)

ABOUT PROGRAM

This program provides an overview on Rapid prototyping which used to fabricate a scale model of a physical part or assembly using three-dimensional computer aided design (CAD) data.

MORE ABOUT PROGRAM

Construction of the part or assembly is usually done using 3D printing or “additive layer manufacturing” technology. Producing a model or a part for prototype is important in developing a product, this course covers the tips and technique in delivering a good rapid prototype work within the industrial practice.

IN COLLABORATION WITH ALTAIR

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