5S
Introduction 5S is a workplace organisation method that uses a list of five Japanese words: Seiri, Seiton, Seiso, Seiketsu, and Shitsuke. The English version of 5S are: Sort, Set, Shine, Standardize, and Sustain. 5S is a simple but power Lean tool and provides a foundation for the Lean environment. It helps to eliminate waste, improve…
8-DISCIPLINE METHODOLOGY PROBLEM SOLVING & IMPROVEMENTS
Introduction There is an increasing awareness that problem solving skill among employees is an important and essential critical skill for company success and to remain viable in today’s very competitive environment. The 8-Discipline problem-solving methodology (also called “8 Step Plan” or TOPS – “Team Oriented Problem – Solving”) is a structured procedure use to arrive…
ADVANCE ROOT CAUSE ANALYSIS
Introduction This Advance Root Cause Analysis course deploy analysis of variance and experimental design designed to equip the participants with the knowledge and skills necessary to facilitate effective problem analysis. This course covers the systematic problem identification that involved interactions of inputs with the use of logic, data analytic, and process analysis to understand the…
ADVANCED DESIGN OF EXPERIMENTS
Introduction The Advanced Design of Experiment Course aims to provide practicing engineers, chemists and managers with a set of tools to systematically improve product design and processes. Particular emphasis is placed on techniques of efficient data collection and analysis using examples and case studies rather than theoretical presentation. Engineers, chemists, and managers will be imparted…
ADVANCED GEOMETRIC DIMENSIONING & TOLERANCING
Objectives Translating Designer’s thought into proper GD&T drawings, including tolerance allocations. You will learn the advanced concepts in GD&T, including: Tolerancing Mating Parts – learn-while-during training session. Direct Versus Indirect Datum Structures. Allowed versus Actual Deviation from True Position Bonus Tolerancing and Virtual Condition Boundaries. Profile, Flexible Parts and Datum Targets. Tolerancing Complex Assemblies with…
ADVANCED STATISTICAL PROCESS CONTROL
Introduction Statistics is an extremely powerful and useful technique to achieve, sustain and improve the quality of product. Massive volumes of data have been collected at the increasing rate in the future. The ability to handle, interpret and use data is therefore critical to the success in business in terms of decision making. Normal Statistical…
Aerospace Series : AS9145 (2016) – Requirements for Advanced Product Quality Planning (APQP) and Production Part Approval Process (PPAP) Training
Objectives: (a) To equip the participants with the basic knowledge and skills to interpret and to integrate the requirements in their current Quality Systems effectively. (b) To enable the participants to acquire the essential techniques to implement APQP and PPAP activities. (b) To enable the participants to conduct their internal audits effectively taking into the…
APPLIED RELIABILITY
Introduction Reliability – Have you ever wondered how a product could have lasted so long a time and given you such a pleasure to use? On the other hand, the same product could have performed poorly in a different environment and you swore never to use it again! They have a theme in common and…
APQP & PPAP
Objectives This course will enable the participants to: Understand the fundamental principle and knowledge of APQP as describe by DaimlerChrysler, Ford and General Motor. Understand the application of APQP and its intent in the IATF 16949 system. Understand the requirements of the PPAP requirements. Understand the process of developing and producing a package that meets…