M MECHANICAL
ENGINEERING
M00001.
THERMODYNAMICS
(3-0-8 Requirement: Course
or have accredited F00 812. 3° IFI, 5° IMA, IME)
Equivalence: TF 95 854
To know basic concepts and definitions of thermodynamics. To establish the first law of thermodynamics in closed and open systems. To apply the first law of thermodynamics in order to analyze heat exchangers for different systems. To define the concepts of thermal machine, refrigeration systems and heat pumps. To establish the criteria of equilibrium of phase equilibrium of pure substances. To study the equilibrium among phases using thermodynamic diagrams. To study the processes of evaporation, fusion and sublimation. To establish the ideal gas equation. To calculate thermodynamics properties of ideal gases. To study polytropic processes. To define the compressibility factor and use it in thermodynamics. To study the second law of thermodynamics and its consequences. To study different thermodynamic cycles and to establish their limitation. To define and compute the energy available, maximum availability.
Textbook:J.A. Manrique and
R.S. Cárdenas, Termodinámica, Editorial Harla, 1994.
(3-0-8 Requirement: Course
or have accredited M00 001, 6° IMA, IME)
Equivalence: TF 95 864
To establish Maxwell’s relations. To use generalized thermodynamic relations to evaluate properties. To establish the use of equations of state for real gases. To analyze the Otto, Diesel, Brayton and Rankine thermodynamic cycles. To evaluate the thermodynamic properties of non-reactive mixtures. To establish thermodynamic properties for ideal gas mixture. To know the thermodynamic characteristics of humidification processes. To analyze air conditioning systems.
Textbook Thermodynamics , Cengel Fourth Edition, 2002.
(3-0-8 Requirement: Haber
aprobado M00003. 6° IMA, 7°IME03)
Equivalence: TF95 874
To know the different mechanics of heat transfer. To analyze the steady-state-unsteady heat conduction for one and several dimensions. To know the basic principles of forcer and natural convection. To know the operation principles of heat exchangers. To know the basics of radiation.
Texto: J.A. Manrique, Transferencia de Calor, Editorial Harla, 1987.
2-2-8 Requeriment: Course
or have accredited Ma00841. 5 IMT)
Equivalence: doesn't have
Definitions: estate, process and cycles, density, viscosity and flow. Definition of pure substance and phase. Phases of a pure substance. Diagrams of properties for a pure substance. Vapor pressure, relative humidity, humidity ratio. Wet bulb temperature and psychrometric chart. Specific heat at constant pressure and constant volume.
Heat transfer: conduction, convection, radiation: a review. Heat transfer on moving boundaries. Fist law of thermodynamics for closed and open systems. Bernoulli equation. Line of hydraulic gradient and total energy. Second law of thermodynamics. Definition of entropy. Basic considerations for the analysis of cycles. P-V and T-V diagrams. Net work and efficiency. Rankine cycle. Refrigeration cycle. Coefficient of performance.
Manufacture of electronic equipment. Cooling by conduction and forced convection. Cooling with liquids and immersion.
Textobook: Fundamentals
of Thermal-Fluid Sciences Yunus A. Cengel/ Robert H. Turner Mc Graw Hill. First
Edition
(2-2-8. Requirement: :Course
or have accredited: M00822 y Q00811. 5 IMT).
Equivalence: Ninguna .
Introduction to materials. Atomic and crystalline structures. Crystalline imperfections. Phase diagrams. Nucleation and growth. Mechanical properties of materials. Ceramics materials. Composites materials. Semiconductors. Materials synthesis and design.
Versión atneriror:
"Properties, microstructure, and basic processing of utilized engineering
materials: polymers, ceramics, metals and compound materials. Techniques for
the characterization of material properties: tension testing, flexion, hardness,
fatigue, impact and thermofluency. Techniques for the characterization of the
material microstructure: microscopy of atomic, electronic and optical forces.
Control of material properties through the microstructure control. Methodology
for material selection based on the engineering design requirements and on performance,
manufacturing, economic issues and product life-cycle."
M00007. MANUFACTURING TECHNOLOGIES
"Manufacturing trends
and changes. Classification of manufacturing processes. Material melting and
casting.
Process of mass deformation: forge, rolling, extrusion and wiredrawing. Processes
for the metal-sheet making:
cutting, folding and inlaying. Traditional and non-traditional machining. Sinterizing
of material: dust metallurgy
and ceramic products. Material union processes. Advanced manufacturing processes:
fast prototypes.
Methodology for the selection of manufacturing technology considering the design
requirements of the
products, the influence of the material performance process, the process capability
and economic issues."
M00811. INTRODUCTION TO ENGINEERING
(2-0-2. Requirement: doesn't
have. 1° IMA, 1° IME03)
Equivalence: M95811
This course is an introduction
to the different areas of study related to the mechanical engineering programs
(IMA, IME), The course is an integrative approach to the roles and the tasks
developed by the mechanical engineer . It also deals with the many issues which
are usually handled by the different university departments such as legal and
policy issues concerning to the students life at de university campus.
(3-0-8 Requirement; Course
or have accredited: F00811. 5 LDI).
Equivalente: M95821
Force resultants and force components. Two and three dimensional forces, couples, and rigid-body equilibrium. Center of gravity, centroids and distributed forces. Moments of inertia. Friction. Planar kinematics and kinetis of rigid bodies.
Texto: Higdon, Engineering mechanics statics and dynamics, Prentice Hall.
(3-0-8 Requirement: Course
or have accredited F00811 y Ma00815. 2° IC, 2° IIS03, 2° IMA, 2°
IME03, 2° IMT, 2° IQA, 2°IQS).
Equivalence:: M95822
Resultants of Force Systems. Coplanar and Noncoplanar Equilibrium. Beams. Dry Friction. Centroids and Distributed Loads. Moments and Products of Inertia of Areas.
Textbook: Pytel & Kiusalaas, Engineering Mechanics, Statics, Second Edition, Brooks Cole Publishing Company, 1999. ?????
(3-0-8. Requirement: : Course
or have accredited M00822. 3 IIS03, 3 IMA, 3 IME03, 3 IMT).
Equivalence: doesn’t have.
“The student will be able to solve problems of rigid bodies in movement
by means of newtonian procedures, thus achieving a clear vision of the phenomena
of classic mechanics. The course includes the following topics: Planar Kinematics
of a Rigid Body. Planar Kinetics of a Rigid Body: Force and Acceleration, Work
and Energy, Impulse and Momentum. Introduction to Mechanical Vibrations.
Text: R.C. Hibbeler. (2001). Engineering Mechanics Dynamics, Ninth Edition,
Prentice Hall.
(2-2-8. Requirement: Course
or have accredited Cb00821 o F00811o Cb00822. 3 IIS, 3 IMA, 3 IME, 2 IMT, 3
LDI).
Equivalence: doesn't have
Geometry of technical drawing.
Multiview projection, sectional views, dimensions and tolerances. Standards,
computer drawing in 2D and modeling of solids.
Textbook: French, Vierck and Foster, Engineering Drawing and Graphic Technology,
McGraw-Hill, 14th edition
(3-0-8 Requirement: Course or have accredited: M00823, 4°IMA, 4°IME03, 5°IMT)
Kinematics analysis or planar mechanisms: Position, Velocity and Acceleration analysis by development of mathematical algorithms, Analytical Synthesis of planar cams by development of mathematical algorithms. Kinematics analysis of spur gears. Involumetry and Interference and Kinematic analysis of gear train.
Textbook: Arthur G. Erdman,
George Sandor and Kota Mechanisms Design, fourth Edition, Prentice Hall.
.
M00865. MANUFACTURING MATERIALS AND PROCESS I
"Technical and plastic capacities of ferrous, wood and glass materials. Laboratory of resistance tests and ecological evolution. Methods and factory processes in simple products. Properties, microstructure and basic processing of the materials used in engineering: polymers, ceramics, metals and compound materials. Material property characterization techniques: testing of tension, flexion, hardness, fatigue, impact, thermo fluids. Material properties of characterization techniques of microstructure materials: microscopy atomic , electronic and optics force. Solidification and Thermal treatments. Processes of Foundry. Metallurgy of Powders. Structure, classifying, and processing polymeric material, ceramics and compounds. Methodologies for the selection of materials with base in the requirements of the engineering design and considering the performance, the manufacturing, the economic aspects, and the cycle of life of the product. "
M00866. MANUFACTURING MATERIALS AND PROCESSES II
"Technical and aesthetic capacities of plastic materials and corrosive hybrid compositions. Laboratory of resistance tests and ecological evolution. Methods and process of manufacture in simple products. Tendency and changes in the manufacture of world wide class. Classification of the manufacturing process. Technological routes of steel production. Plastic deformation of the Metals. Process of massive deformation: forges, extrusion, wiredrawing, and roll. Process of formation of metallic sheets: cutting, folding, and inlay: traditional and not traditional schemed. Process of hinged connection of materials. Surface treatments. Methodology of technologies of manufacturing selection considering the requirements of the design of the product, the influence of the process in the performance of the materials, the capacity of the processes and the economic aspects. "
"Performance of object, furniture and special equipment for handicapped prototypes, as well as for people of the third age. Equipment in hospitals, schools and centers of specialized attention. Technological exploration and aesthetics. Integration to the process of manufacturing. Principles of Economy-Ecology-Energy. Introduction to the development of products. Properties of the materials and basic concepts of mechanics of materials. Modeling and virtual prototypes. Physical prototypes: qualities and prototype process. Planning and designing of prototypes. "
Performance of prototypes of innovated products. Application of the personalized concepts. Redraw and customized of products in line. To personalize for necessities of diverse functionality. Redraw for necessities of technology supplement. Customized for necessities of aesthetic expression.
M00869. TECHNOLOGICAL INNOVATION
3-0-8. Requirement: : Course
or have accredited M00866. 7 LDI
Equivalence: M00843
This course deals with systemic examination of issues relating to the management of innovation and new product-development, The course focuses on strategic,behavioral,inter-functional (team) and regional considerations. Topics include technology as a source of competitive advantage, promoting creativity in the organization,management of cross-functional activities, technology transfer, entrepreneurship, and project management for accelerating commercial introduction.
Libro de texto: Karl T.
Ulrich and Steven D. Eppinger, Product design and development, McGraw-Hill,
2000.
"Techniques for functional
prototypes. Technical of workshop for schemed, CAD/CAM for prototypes. Construction
of functional prototypes. Performance of prototypes. Of utopian products. Design
exploration of existing objects. Inventive, inspiration, and application of
concepts of emotional intelligence. Market solutions. "
M00841. MECHANICS OF MATERIALS
(3-0-8. Requirement: Course
or have accredited: M00822. 3 IMA, 3 IME03,4 IMT).
Equivalence: M95841.
Internal effects in axially loaded prismatic members. Internal effects in torque-loaded circular cross section members. Statically determinate beams subject to transverse loadings acting in a symmetrical plane of the beam. General state of stress in pieces subject to combined loadings. Plane-Stress transformation.
Textbook: R.C. Hibbeler, Mechanics of Materials, Fourth Edition, Prentice Hall, 2000.
M00842. MECHANICS OF MATERIALS II
(3-0-8. Requirement: Course
or have accredited: M00841. 4° IMA, 4° IME03).
Equivalence: M95842.
Three-dimensional analysis of stress and strain transformations (strain gages). Design of beams and shafts, static load. Deflection of beam and shafts. Statically indeterminate beams submitted to flexion. Deformation of elastic energy in pieces put under different types of loads. Critical load in columns with different subjections from its extremes and eccentric loading.
Textbook: R.C. Hibbeler,
Mechanics of Materials, Fourth Edition, Prentice Hall, 2000.
The engineering-design process. Management of design projects. Conceptual design. Selection of materials and processes. Modeling and simulation. Optimization in design and statistical decisions. Communication in engineering (auto study subject). Textbook: Atila Ertas and Jesse C. Jones, The Engineering Design Process, John Wiley and Sons, 1993.
CAMPUS: CCM, CEM, MTY, QRO.
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION:
SPANISH
(3-0-8. Requirement: Ma00841
y F00812, .4° IFI, 7° IMA, 5° IME03)
Equivalence:: TF95855
To know the concepts and definitions of fluid mechanics. To establish the differential equations for a fluid particle and to apply the mass and momentum conservation principles: to derive the equations of Navier-Stokes. To use the equations of Navier-Stokes in modeling fluid systems. To establish integral relations for a control volume and to apply the conservation of mass, conservation of momentum and energy. To derive the Bernoulli equation. To define friction factor and to establish the equations to compute the friction factor. To analyze viscous flow in pipes. To know different flow devices. To know the principles of centrifugal pumps. To know the concepts of efficiency, head loss. To use characteristic curves of centrifugal pumps to specify pump systems.
M00863. MANUFACTURING PROCESSES I
(3-0-8. Requirement: :
Course or have accredited: In00851. 6 IIS03).
Equivalence: M95863.
General Introduction. The Structure of Metals. Mechanical Behavior, Testing and Manufacturing Properties of Materials. Ferrous and Nonferrous alloys. Metal-Casting: Sand and Die Casting. Investment Casting. Heat Treatment. Forming and Shaping: Rolling, Forging, Extrusion and Drawing of metals. Sheet-Metal Forming: Shearing, Bending, Deep Drawing. Processing of Powder Metals, Ceramics and Glass. Forming and Shaping Plastics and Composite materials. Material-Removal Processes and Machines: Cutting Tool Materials and Cutting Fluids, Machining Process, Advanced Machining Process. Joining Process and Equipment: Fusion Welding, Solid-State welding, Brazing, Soldering, Adhesive Bonding, Mechanical Fastening. Surface Treatment, Coating and Cleaning. Competitive Aspects of Manufacturing
Textbook: Serope Kalpakjian, Manufacturing Engineering and Technology, Fourth Edition. Prentice Hall.
M00862. MATERIALS ENGINEERING II
(3-0-8. Requirement: Course
or have accredited M00861. 6° IMA, 7° IME03).
Equivalence: M95862.
Phase diagrams. Phase transformations. Thermal processing of metal alloys. Metal alloys in engineering. Structures and properties of ceramics. Applications and processing of ceramics. Structure and properties of composites. Applications and processing of composites. Corrosion and degradations of materials.
Phase diagram. Phase transformations. Thermal treatments of metallic alloys. Metallic alloys in engineering. Structure and properties of ceramic materials. Ceramic material applications and processing. Structure and properties of compound materials. Compound materials applications and processing. Materials corrosion and degradation.
Textbook: William D. Callister Jr., Materials Science and Engineering, John Wiley and Sons, Inc., 3rd edition.
M00861. MATERIALS ENGINEERING I
(3-0-8. Requirement : Course
or have accredited Q00811 y (haber cursado o estar cursando M00001). 5°
IMA, 6° IME03).
Equivalence: M95861.
Introduction to materials science and engineering. Atomic structure and interatomic bonds. Crystal structures of solids. Imperfections in solids. Diffusion. Mechanical properties of materials. Dislocations and strengthening mechanisms. Facture mechanic and failure by fatigue and creep. Physical properties of materials. Polymers structures. Characteristics, applications, and processing of polymers. . .
Versión atnterior:
General classification of materials. Properties of materials and mechanical
tests. Classification, properties, manufacturing processes and applications
of metallic materials. Classification, properties, manufacturing processes and
applications of polymeric materials. Classification, properties, manufacturing
processes and applications of ceramic materials. Classification, properties,
manufacturing processes and applications of compound materials. Materials selection
methodologies. Textbook: D.R. Askeland, The Science and Engineering of Materials,
2nd edition, USA, 1992.
(3-0-8. Prerequisites:
To pass M00832 y Ma00841. 5 IME03).
Free vibrations of linear and non-linear single degree of freedom systems. Response
and stability analysis of single degree of freedom conservative systems. Response
of linear systems under harmonic forces, and under a periodic force of irregular
form, etc. Dynamic balance of rigid rotors in two or more planes. Free and forced
vibration response of systems with two or more degrees of freedom. Study and
analysis of linear vibration absorbers. Introduction to the study of random
vibrations in continuous systems.
Textbook: Mechanical
Vibrations, Author: Singiresu S. Rao, Fourth Edition, Ed. Pearson, Prentice
Hall, 2004
"The objective of this
course is that the students acquire the knowledge, the abilities, the attitudes
and the values that are necessary to be able to carry out satisfactorily a structured
process of development of products that facilitates them to create competitive
products globally, of quality that will not cause deterioration to the environment
that will be innovative and that their manufacturing is integral part of its
conception. The course includes the following topics: general concepts in the
process of developing products. QFD as a tool to determine market requirements.
The conceptual design of the product and the technological process. Development
of scale models and prototypes. I design for It manufactures. Textbook: Ulrich,
Karl T. and Steven D. Eppinger. (2000). Product design and development. McGraw-Hill."
. M00881. MANUFACTURING ENGINEERING
Concurrent engineering,
material and process selection. Designing for assembly. Computer technology
for manufacturing. Costs of manufacturing. Technological routes for iron and
steel production. Ingot production and continuous casting. Production of nonferrous
alloys. Fundamentals of foundry processes. Foundry processes for single-use
and permanent molds. Design considerations. Rolling. Forging. Extrusion. Wire
drawing. Processes for making sheet metal. Powder metallurgy. Processes for
making polymers and composite materials. Textbook: Serope Kalpakjian, Manufacturing
Engineering and Technology, Addison-Wesley, 2nd ed.
M00892. MACHINE ELEMENTS DESIGN
(3-0-8. Requirement: Course
or have accredited: M00841 .6° IMA, 8° IME03, 6° IMT).
Equivalence: M95892.
Analysis and design of shafts with steady and variable loads. Selection of ball and roller bearings. Introduction to theory of hydrodynamic lubrication and analysis and design of journal bearings. Analysis and Design of spur, helical and bevel gears. Analysis, design and selection of clutches, brakes and belts. All the topics are studied with the support of the computer. Textbook: J. Shigley and C. Mischke, Mechanical Engineering Design, Sixth Edition, McGraw-Hill, 2001.
Texto: J. Shigley y Ch. Mischke, Mechanical engineering design, 5a. edición, McGraw-Hill.
. M00981. MECHANICAL ENGINEERING LABORATORY
Handling the universal
machine through stress and compression tests. Cementation of extensometric gages.
Experimental analysis of stress on cantilevers. Experimental analysis of stress
on beams with one support. Experimental analysis of stress on bars subjected
to pure torsion. Experimental analysis of thin-walled cylinders. Determining
the moment of inertia. Free vibration of a system with one degree of freedom.
Balancing rotors in one plane. Balancing rotors in two planes. Forced vibration
with and without damping in systems with one degree of freedom. Analysis of
transmissibility and vibration insulation. Handling basic measuring instruments;
use and application of the coordinate measuring machine for measuring points
on a piece. Determining mechanical properties of engineering materials. Metallographic
analysis of materials. Thermal treatments for steel normalization and annealing.
Thermal treatments for steel tempering and toughening. Function and application
of SMAW welding machines. Welded joints obtained by MIG process; welded joints
obtained by TIG process. Function and application of lathes and drills. Evaluating
the machineability of engineering materials. Function and application of milling
machines. Manufacturing of a product by applying the processes analyzed. Textbook:
Manual de prácticas de laboratorio, ITESM.
Fecha de la última actualización: 29 de julio de
2004 (IZ)