UNIT V         TAGUCHI METHODS                                                            10

               Steps in experimentation, design using Orthogonal Arrays, data analysis, Robust design- control and
               noise  factors,  S/N  ratios,  parameter  design,  Multi-level  experiments,  Multi-response  optimization  –
               Case Studies
                                                                                TOTAL :        45 PERIODS
                OUTCOMES:
                     Able to know the basic concepts and models of experimental design
                     Able  to  formulate  the  experimental  design  model  for  the  real  time  industrial  problemand
                       analyse  the  results  of  a  designed  experiments  in  order  to  conduct  the  appropriate  statistical
                       analysis of the data.
                     Able to interpret the statistical results from an experiment
                     Able  to  apply  design  of  experiment  techniques  to  any  real  time  industrial  problems  and  to
                       optimize the performance of industries.

               TEXTBOOKS:

                   1.  Krishnaiah, K. and Shahabudeen, P. Applied Design of Experiments and Taguchi Methods, PHI
                       learning private Ltd., 2012.
                   2.  Montgomery, D.C., Design and Analysis of experiments, John Wiley and Sons, Eighth edition,
                       2012.

               REFERENCE:
                   1.  Nicolo  Belavendram,  Quality  by  Design;  Taguchi  techniques  for  industrial  experimentation,
                      Prentice Hall, 1995.
                   2.  Phillip J. Rose, Taguchi techniques for quality engineering, McGraw Hill, 1996.
                   3.  Montgomery,  D.C.,  Design  and  Analysis  of  Experiments,  Minitab  Manual,  John  Wiley  and
                      Sons, Seventh edition, 2010.




                           OME1702                    INDUSTRIAL SAFETY                        L  T  P  C
                                                                                               3 0  0  3
               OBJECTIVES:


                     To provide in-depth knowledge in principles of Industrial safety and its significance in various
                       fields.
                     To  provide  the  knowledge  of    safety  at  various  levels  in  the  industry  such  as  operational,
                       assessment of earn the CAD modeling and basic process steps of digital work flow from design
                       to Manufactured AM parts
                     To enrich about the regulations of safety and health regulations with case study
                     To expose the health hazard due to various industries
                     To provide knowledge on safety management in industry at various level


               UNIT I         OPERATIONAL SAFETY                                                      9

               Hot  metal  operation,  boiler,  pressure  vessels  –  heat  treatment  shop  –  gas  furnace  operation  –
               electroplating – hot bending pipes – safety in welding and cutting, Cold – metal operation – safety in
               machine shop – cold bending and chamfering of pipes- metal cutting – shot blasting, grinding, painting
               –  power  press  and  other machines.  Management  of  toxic  gases and  chemicals  –  industrial fires  and
               prevention – road safety – highway and urban safety – safety of sewage disposal and cleaning – control


               Curriculum and Syllabus | Open Electives | R 2017 | REC                              Page 87