Pelatihan Reliability Tools & Integration for Overall Reliability Programs
Training Reliability Tools & Integration for Overall Reliability Programs
Objectives Training Reliability Tools & Integration for Overall Reliability Programs
In order to minimize total Life Cycle Costs (LCC), a Reliability Engineer must do two things: 1) choose the best reliability tools from all of the tools available and must apply these tools at the proper phases of a product life cycle, and 2) properly integrate these tools together to assure that the proper information is fed forward and backwards at the proper times. This course will review each of these tools, describing what they are, when to use them, and how to integrate them in with the rest of the program.
As part of the course, we will learn about Reliability Integration, the process of seamlessly and cohesively integrating reliability tools together to maximize reliability and at the lowest possible cost.
Outline Training Reliability Tools & Integration for Overall Reliability Programs
1. Elements of a Reliability Program
Basic Definitions
Reliability vs. Cost
Product Life Cycle Matrix
Integration Phases
i. Integration in the Concept Phase
ii. Integration in the Design Phase
iii. Integration in the Prototype Phase
iv. Integration in the Manufacturing Phase
2. Phase I: Integration in the Concept Phase
Benchmarking
o Definition
o Different types of Benchmarking
Product Benchmarking
Process Benchmarking
o How to perform
o How the results of benchmarking lead to a gap analysis
Gap Analysis
o Definition
o How to perform
o Using Benchmarking and the Gap Analysis to help write the Reliability Program and Integration Plan.
Reliability Program and Integration Plan
o Definition
o How to define the elements of the plan
o Where to get the metrics
o Defining the schedule
o Integrating all of the activities together within the Plan
3. Phase II: Integration in the Design Phase
Reliability Modeling and Predictions
o Objectives of a Reliability Prediction
o Standards Available
o General Assumptions
o Inputs Required
o Available Methods
o Multiplier Factors
o Examples
o How to use Modeling and Predictions in preparation for HALT and HASS
Failure Modes, Effects, and Criticality Analysis (FMECA)
o Objectives of a FMECA
o Standards Available
o Design FMECA
o User FMECA
o Software FMECA
o Process FMECA
o Top-down Approach
o Bottom-up Approach
o Examples
o How to use a FMECA in preparation for a HALT
Derating Analysis
o What is derating
o How to apply principles
o How to use derating analysis in preparation for a HALT
Design of Experiments
o Advantages over conventional experiments
o How to perform
o When to use Design of Experiments in Conjunction with HALT and HASS
Fault Tree Analysis (FTA)
o When to use
o How to perform
o When to Use FTA in Conjunction with HALT and HASS
Stress-Strength Analysis
o Definition
o How to perform
o How to use in conjunction with HALT and HASS
Tolerance and Worst Case Analysis
o Definition
o Types of Tolerance Analyses
o When to use and when not to use
o How to perform
o How to use in conjunction with HALT
Human Factors Analysis
o How to perform
o Considerations for Safety, Maintainability, and Preventive Maintenance
o How to use Human Factors Analysis in Planning for HALT and HASS
Maintainability and Preventive Maintenance (PM)
o Definitions
o How to perform a Maintainability Prediction
o How to decide on a PM schedule
o How to Use Maintainability and PM in Conjunction with HALT and HASS
4. Phase III: Integration in the Prototype Phase
Highly Accelerated Life Testing (HALT)
o What is HALT
o Why HALT works
o Planning for a HALT
Using results from the Modeling and Predictions FMECA, and Derating Analyses to help develop the HALT Plan
o Executing the HALT
Using a FRACAS for root cause analysis on each failure
o Using the HALT results to help plan the RDT
o Using the HALT results to define the HASS profile
Failure Reporting, Analysis and Corrective Action System (FRACAS)
o How to set up a FRACAS
o Different types of FRACAS tools
o How to use a FRACAS in conjunction with a HALT
Reliability Demonstration Test (RDT)
o What is an RDT
o How to set up an RDT
o Different variables
o How to use the results of HALT and Predictions in planning an RDT
5. Phase IV: Integration in the Manufacturing Phase
Highly Accelerated Stress Screening (HASS)
o Setting up a HASS based on HALT results
o Running Proof-of-Screen
o Using RDT and FMECA results to identify possible wearout mechanisms that need to be taken into account for HASS
o Using Reliability Prediction results to help determine how much screening is necessary
On-Going Reliability Testing (ORT)
o What is an ORT
o How to set up an ORT
o Different variables
o Comparing ORT to HASS
o How to use the results of a prediction when Setting up an ORT
Repair Depot Setup
o Key factors involved in setting up a repair depot
o Sending NTF hardware back through HASS
Field Failure Tracking System
o Purpose of a field failure tracking system
o Linking field failure information with predictions
o Using failure analysis tools with field trends
Reliability Performance Reporting
o How to set up
o What metrics to track
o Comparing results with Reliability Program and Integration Plan
End-of-Life Assessment
o Gathering and plotting data
o Comparing with predicted results
o How to use the results of reliability predictions and FMECA’s to assist in EOL assessment
Peserta
Peserta dapat diikuti oleh semua yang tertarik pada bidang ini. Selain itu juga dapat diikuti oleh semua yang ingin mengatahui dan mendalami tentang bidang ini.
Instruktur
Instruktur dalam Pelatihan dan Training ini akan dibawakan oleh seorang yang ahli dalam bidang ini.
Metode Training
- Presentasi
- Diskusi antar peserta
- Studi kasus
- Simulasi
- Evaluasi
- Konsultasi dengan instruktur
Jadwal Training Terbaru di Jogja Tahun 2025
Januari : 14-15 Januari 2025
Februari : 11-12 Februari 2025
Maret : 11-12 Maret 2025
April : 8-9 April 2025
Mei : 21-22 Mei 2025
Juni : 17-18 Juni 2025
Juli : 15-16 Juli 2025
Agustus : 26-27 Agustus 2025
September : 17-18 September 2025
Oktober : 14-15 Oktober 2025
November : 11-12 November 2025
Desember : 17-18 Desember 2025
Jadwal tersebut juga dapat disesuaikan dengan kebutuhan calon peserta
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- Bali, Hotel Ibis Kuta (7.500.000 IDR / participant)
- Lombok, Hotel Jayakarta (7.500.000 IDR / participant)
Investasi Pelatihan tahun 2023 ini :
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