Index
Jagdeep Singh
(I. K. Gujral Punjab Technical University, India)
Harwinder Singh
(Guru Nanak Dev Engineering College, India)
Bhupinder Singh
(Lovely Professional University, India)
Prioritization of Failure Modes in Manufacturing Processes
ISBN: 978-1-83982-143-1, eISBN: 978-1-83982-142-4
Publication date: 21 May 2020
This content is currently only available as a PDF
Citation
Singh, J., Singh, H. and Singh, B. (2020), "Index", Prioritization of Failure Modes in Manufacturing Processes, Emerald Publishing Limited, Leeds, pp. 149-151. https://doi.org/10.1108/978-1-83982-142-420201007
Publisher
:Emerald Publishing Limited
Copyright © 2020 Emerald Publishing Limited
INDEX
Adaptive Neuro Fuzzy Inference System
, 14
Albeit fuzzy logic
, 10
Apollo Space program
, 3, 4
Application, fuzzy-based FMEA
detection
, 68
fuzzy FMEA
, 67
fuzzy logic–based FIS (Fuzzy Inference System) editor
, 67–68
methodology
, 62
objectives
, 62
occurrence
, 68
operations
, 70–82
problem statement
, 62
procedure
, 65–67
severity
, 68
steps
, 68–69
surface diagram
, 69
traditional failure mode and effects analysis (FMEA)
, 61–65
Casting process operations
core inspection and storage
, 41, 42
core making
, 40–41
core painting
, 41
derisering
, 43–45
fettling
, 45–46
final inspection of raw materials
, 46, 47
inoculation and pouring
, 43, 44
melting in induction furnace
, 37–38
molding and core setting
, 41–43
painting
, 47
pattern and core box manufacturing
, 39–40
pattern plate preparations and lettering
, 40
problems
, 54–55
procurement, receipt of raw materials and consumables
, 36
sand mixing and mold preparations
, 38–39
shake out
, 43, 45
shot blasting
, 45, 46
storage of raw materials/consumables
, 36–37
treatment and deslagging
, 43, 44
Cohesive hierarchical fuzzy inference system (CHFIS)
, 14
Core making
, 40–41
Core painting
, 41
Core setting
, 41–43
Cotter pin boss milling
, 52
Cotter pin hole drilling
, 50
Cotter pin hole reaming
, 51
Data protection impact assessment (DPIA)
, 14
Defuzzification
, 21
Degree of membership
, 12
Dempster–Shafer theory (DST)
, 14
Derisering operation
, 43–45
Detection
, 68
Failure-free process
, 2
Failure mode and effects analysis (FMEA)
, 1–3
classification
, 4–7
design
, 6
detection
, 4
development
, 4, 5
effects of failure
, 8
failure cause
, 7–8
implementation
, 141–142
objectives
, 4, 5
occurrence
, 4
potential failure mode
, 7
procedure to perform
, 9
process FMEA (PFMEA)
, 6–7
risk priority number (RPN)
, 8
severity
, 4
team
, 8
types
, 6
vocabulary
, 7–8
Fault identifications
, 114–131
Fault tree analysis
, 23–26
fault identifications
, 114–131
fuzzy based FMEA
, 100–114
methodology
, 96–98
objectives
, 96
potential failures identification
, 98
problem formulation
, 95–96
process FMEA
, 99–100
quality and reliability measures
, 95
Feeder
, 43
Fettling
, 45–46
Fish Bone Diagram
Potential Risk K12
, 82
Potential Risk K15
, 82–83
Ford Motor Company
, 3, 4
Forest Fire Vulnerability Index
, 14
Fuzzy axiomatic design (FAD)
, 14
Fuzzy-based failure mode and effects analysis
, 20, 85–90
approach
, 21–22
defuzzification
, 21
fuzzy inference system (FIS)
, 22–23
linguistic variable
, 21
steps
, 22
Fuzzy guideline
, 11
Fuzzy If-Then rules
, 19
Fuzzy induction framework
, 11
Fuzzy inference system (FIS)
, 15
Max-Min method
, 2
Fuzzy Lambda–Tau (FLT)
, 14
Fuzzy logic
, 9–11
applications
, 13–20
rebalancing and optimization
, 138–139
Fuzzy logic–based FIS (Fuzzy Inference System) editor
, 67–68
Fuzzy membership function
, 23
Fuzzy risk priority number (FRPN)
, 19, 84, 91, 92, 142
Fuzzy set
, 11, 12
Gang milling
, 49
Gate symbols
, 25
Global Warming
, 14
Grumman Aircraft Corporation
, 3
Hazard Analysis Critical Control Point (HACCP)
, 4
Heuristic-based membership functions determination (HBMFD)
, 14
Interval type-2 fuzzy sets (IT2FSs)
, 14
Interval-valued intuitionistic fuzzy sets (IVIFSs)
, 13
Line balancing problem
, 133–134
conventional method
, 135–136
methodology
, 135
problem analysis
, 136–137
problem formulation
, 134
rebalancing and optimization
, 138–139
Linguistic factors
, 11
Linguistic variables
, 10
Lukasiewicz’s logic
, 10
Machining of rear Spring Bracket
base milling
, 48–49
boring
, 50
Cotter pin boss milling
, 52
Cotter pin hole drilling
, 50
Cotter pin hole reaming
, 51
final inspection
, 53
gang milling
, 49
grease application
, 54
mounting hole drilling
, 51–52
packing
, 54
primer and paint application
, 47–48
problems
, 55–56
sharp edge breaking
, 52–53
spot facing
, 52, 53
spring pin hole dia reaming
, 51
Maintenance plan
, 2
Max–Min method
, 2, 68
Membership functions
, 12–13
Microelectromechanical system (MEMS)
, 15
Minimum cut sets (MCS) theory
, 18
Multi-attribute failure mode analysis (MAFMA)
, 19
Multi-attributive border approximation area comparison (MABAC) method
, 13
Occurrence
, 68
Operations management
, 30–31, 133
Potential failures identification
, 98
Potential Risk K12
, 82
Potential Risk K15
, 82–83
Process FMEA (PFMEA)
, 6–7
Process time
, 133
Production line
, 133
Quality control
benefits
, 28–29
continual improvement
, 26
definition
, 27
elements
, 27
factors
, 29–30
inspection
, 30
objectives
, 28
steps
, 28
Quantifiable risk-based approach
, 14
Reliability, availability, and maintainability (RAM)
, 14
Risk analysis
, 18
Risk priority number (RPN)
, 2, 4, 8, 33, 61, 83, 84, 92, 141
threshold limits
, 35
threshold value
, 34
Risk priority rank (RPR)
, 19
Rule-based inference methodology using the evidential reasoning (RIMER)
, 16
Rule Viewer
, 23
Severity
, 68
Shot blasting
, 45, 46
Standard Operating Procedure (SOP)
, 82
Statistical analysis
, 56–58
Surface diagram
, 69
Tapping temperature
, 37
Time and motion study
, 31–32
Traditional failure mode and effects analysis
, 3–4, 9, 33–34, 61–62, 142
casting process operations
, 35–47
machining of rear Spring Bracket
, 47–54
methodology
, 34–35
problem formulation
, 34
statistical analysis
, 56–58
Universe of discourse
, 11–12