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Module Specifications

Archived Version 2014 - 2015

Module Title Strength of Materials II
Module Code MM212
School School of Mechanical and Manufacturing Engineering

Online Module Resources

Module Co-ordinatorProf Lisa LooneyOffice NumberAg40
NFQ level 8 Credit Rating 5
Pre-requisite None
Co-requisite None
Compatibles None
Incompatibles None
Description

This is a core module for all mechanically based engineering degrees. It underpins decisions made in design, and provides a foundation for more advanced analysis techniques and tools.

Learning Outcomes

1. Devise an appropriate calculation from a narrative describing component loading and geometry including simple components under axial, torsion, bending,pressure and thermal loading.
2. Carry out calculations to find stress and strain in simple elements under elastic loading including pressure vessels and struts
3. Explain how stress can be transformed (in 2D) and apply transformation equations and Mohr's circle.
4. Apply yield criteria to calculate limits on simple components under multiaxial loading
5. Apply a systematic approach to the selection of a material, i.e. mathematically represent a mix of property requirements for particular applications and design goals, and then use material selection charts to identify a subset of suitable materials
6. Incorporate into material choice tools consideration of the phase of material lifecycle contributing most to environmental impact.
7. Run an experiment, present and interpret data and communciate results verbally and in technical report format



Workload Full-time hours per semester
Type Hours Description
Lecture36Lectures are used to teach principles, illustrating these with examples. Tutorial questions are addressed throughout lecture time to encourage active learning by providing an immediate opportunity for learners to apply knowledge and practice calculations
Laboratory12Preparing, undertaking experiments and write-ups
Assignment Completion15Familiarisation with software, undertaking calcualtions and report
Independent Study32separate to preparation for assignments, labs and test
Online activity18Mec movies time
Directed learning9preparation for mid term exam
Directed learning3mid sem test and final exam
Total Workload: 125

All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml

Indicative Content and Learning Activities

Elastic Failure
Stress and strain in thin cylinders and spherical shells under pressure. Eulers theory of buckling. Statically indeterminate stress systems. Thermal stresses and strains.

Stress Transformation
Two and three dimensional stress and strain. Princpal stresses Mohr s stress circle.

Plastic Failure
Yield Criteria Models of Plastic behaviour Plastic failure of simple elements (beam or shaft)

Material Selection
Development of Materials Index (MI) tool to identify required balance of materials properties. Application of MI to material selection charts, using Cambridge Engineering selector (CES) software. Adaptation of this method to include environmental impact considerations. Case studies.

Assessment Breakdown
Continuous Assessment20% Examination Weight80%
Course Work Breakdown
TypeDescription% of totalAssessment Date
Reassessment Requirement
Resit arrangements are explained by the following categories;
1 = A resit is available for all components of the module
2 = No resit is available for 100% continuous assessment module
3 = No resit is available for the continuous assessment component
Unavailable
Indicative Reading List

  • T. A. Philpott: 2008, Mechanics of Materials An integrated learning system, John Wiley & Sons, 978-0-470-04438-4
  • Michael F. Ashby: 0, Materials selection in mechanical design, Elsevier, 0-7506-6168-2
Other Resources

402, Website, Timothy A. Philpott, 0, MecMovies, http://higheredbcs.wiley.com/legacy/college/philpot/0470044381/mecmovies/index.html,
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