University certificate
The world's largest faculty of engineering”
Why study at TECH?
Learn to design, evaluate and manage Mechanical Engineering projects, incorporating the most relevant and interesting innovations in the sector"
The incursion of new technologies in Mechanical Engineering demands professionals with extensive digital skills"
TECH's Professional master’s degree in Mechanical Engineering is a program specifically designed for professionals who need to strengthen their knowledge, both in the conventional aspects of their professional activity, as well as in the most innovative aspects.
It has an international focus, with content based on that of the most prestigious universities in the world and is aligned with the recommendations of professional associations such as ASME (American Society of Mechanical Engineers) and IMechE (Institution of Mechanical Engineers).
The use of the case method facilitates the learning of concepts, avoiding systematic memorization and repetitive performance of complex calculations.
The content of the program combines the traditional but necessary aspects of the profession with the most innovative aspects that are renewed in each edition.
We can highlight the aspects related to innovation management and Soft Skills, which accompany the different modules of the program, as well as the study of Industry 4.0 solutions, applied to Mechanical Engineering and the development of optimized processes of total quality, applied to all steps of mechanical design; without forgetting the use of simulation tools, freely available, which facilitate the performance of calculations, and allow to analyze solutions much solutions in much greater detail.
It should be noted that, as it is a 100% online program, the student is not conditioned by fixed schedules or the need to move to another physical location, but can access the contents at any time of the day, balancing their work or personal life with their academic life.
This Professional master’s degree may be the best investment you can make in the selection of a refresher program for two reasons: in addition to updating your knowledge in Mechanical Engineering, you will obtain a certificate from TECH Global University"
This Professional master’s degree in Mechanical Engineering contains the most complete and updated educational program on the market. The most important features of the program include:
- The development of case studies presented by experts in Mechanical Engineering
- The graphic, schematic and eminently practical contents with which they are conceived, gather scientific and practical information on those disciplines that are essential for professional practice
- Practical exercises where the self-assessment process can be carried out to improve learning
- Its special emphasis on innovative methodologies in Mechanical Engineering
- Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
- Content that is accessible from any fixed or portable device with an Internet connection
It includes, in its teaching staff, professionals belonging to the field of Mechanical Engineering, who pour into this training the experience of their work, in addition to recognized specialists, reference societies and prestigious universities.
The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive training , programmed to train in real situations.
This program is designed around Problem Based Learning, whereby the professional must try to solve the different professional practice situations, that arise during the academic year. For this purpose, the professional will be assisted by an innovative interactive video system created by renowned and experienced experts in Mechanical Engineering, adding their extensive valued experience.
A complete didactic material, totally accessible, that will allow you to study with comfort, expanding your knowledge in the most stimulating way"
This program, 100% online, will allow you to combine your studies with your professional work. You choose where and when to train"
Syllabus
The structure of the contents has been designed by the best professionals in the Mechanical Engineering sector, with extensive experience and recognized prestige in the profession, and aware of the benefits that the latest educational technology can bring to higher education.
We have the most complete and up-to-date program on the market. We strive for excellence and for you to achieve it too"
Module 1 Mechanical Engineering Project Management
1.1. Design Process
1.2. Research and Innovation
1.2.1. Technological Creativity
1.2.2. Fundamentals of Design Thinking
1.3. Modeling and Simulation
1.3.1. 3D Design
1.3.2. BIM Methodology
1.3.3. Finite Elements
1.3.4. 3D Printing
1.4. Project Management
1.4.1. Start
1.4.2. Planning
1.4.3. Implementation
1.4.4. Control
1.4.5. Closure
1.5. Problem Solving
1.5.1. 8D Methodology
1.6. Leadership and Conflict Resolution
1.7. Organization and Communication
1.8. Project Drafting
1.9. Regulations
1.10. Intellectual Property
1.10.1. Patents
1.10.2. Utility Models
1.10.3. Industrial Design
Module 2 Design of Mechanical Elements
2.1. Theories of Failure
2.1.1. Static Failure Theories
2.1.2. Dynamic Failure Theories
2.1.3. Fatigue
2.2. Tribology and Lubrication
2.2.1. Friction
2.2.2. Wear and Tear
2.2.3. Lubricants
2.3. Propshaft Design
2.3.1. Shafts and Axles
2.3.2. Keyways and Splined Shafts
2.3.3. Flywheels
2.4. Rigid Transmission Design
2.4.1. Cams
2.4.2. Spur Gears
2.4.3. Bevel Gears
2.4.4. Helical Gears
2.4.5. Worm Screws
2.5. Flexible Transmission Design
2.5.1. Chain Drives
2.5.2. Belt Drives
2.6. Bearing Design
2.6.1. Friction Bearings
2.6.2. Roller Bearings
2.7. Design of Brakes, Clutches and Couplings
2.7.1. Brakes
2.7.2. Clutches
2.7.3. Couplings
2.8. Mechanical Spring Design
2.9. Design of Non-Permanent Joints
2.9.1. Bolted Joints
2.9.2. Riveted Joints
2.10. Design of Permanent Connections
2.10.1. Welded Joints
2.10.2. Adhesive Joints
Module 3 Thermal, Hydraulic and Pneumatic Machines
3.1. Principles of Thermodynamics
3.2. Heat Transfer
3.3. Thermodynamic Cycles
3.3.1. Steam Cycles
3.3.2. Air Cycles
3.3.3. Refrigeration Cycles
3.4. Combustion Processes
3.5. Thermal Machines
3.5.1. Steam Turbine
3.5.2. Combustion Engines
3.5.3. Gas Turbines
3.5.4. Stirling Engine
3.6. Fluid Mechanics
3.6.1. Multidimensional Fluid Mechanics
3.6.2. Laminar Flow
3.6.3. Turbulent Flow
3.7. Hydraulic Systems and Hydrostatics
3.7.1. Distribution Networks
3.7.2. Hydraulic System Elements
3.7.3. Cavitation and Water hammer
3.8. Hydraulic Machines
3.8.1. Positive Displacement Pumps
3.8.2. Rotary Pumps
3.8.3. Cavitation
3.8.4. Coupling of Hydraulic Installations
3.9. Turbomachines
3.9.1. Action Turbines
3.9.2. Reaction Turbines
3.10. Pneumatics
3.10.1. Compressed Air Production
3.10.2. Compressed Air Preparation
3.10.3. Elements of a Pneumatic System
3.10.4. Vacuum Generators
3.10.5. Actuators
Module 4 Structures and Installations
4.1. Structural Calculations
4.1.1. Beam Calculation
4.1.2. Column Calculations
4.1.3. Gantry Calculations
4.1.4. Foundations
4.1.5. Preloaded Structures
4.2. Low Voltage Electrical Installations
4.3. Air Conditioning and Ventilation Installations
4.3.1. Heating Installations
4.3.2. Air Conditioning Installations
4.3.3. Ventilation Systems
4.4. Sanitary Water Installations and Sewage Systems
4.4.1. Water Installations
4.4.2. Domestic Hot Water Systems - DHW
4.4.3. Sanitation Networks
4.5. Fire Safety Installations
4.5.1. Portable Extinguishing Systems
4.5.2. Detection and Alarm Systems
4.5.3. Automatic Extinguishing Systems
4.5.4. BIEs, Dry Columns and Hydrants
4.6. Communication, Home Automation and Security Installations
4.7. Thermal and Acoustic Insulation
4.8. Steam, Compressed Air and Medical Gases Installations
4.8.1. Steam Installations
4.8.2. Compressed Air Installations
4.8.3. Medical Gas Installations
4.9. Gas and Liquid Fuels Installations
4.9.1. Natural Gas Installations
4.9.2. Liquefied Petroleum Gas Installations
4.9.3. Liquid Hydrocarbon Facilities
4.10. Energy Certifications
4.10.1. Energy Demand Control
4.10.2. Renewable Energy Contribution
4.10.3. Energy Audits
4.10.4. ISO 50001 Energy Certification
Module 5 Advanced Dynamics
5.1. Advanced Machine Dynamics
5.2. Vibrations and Resonance
5.3. Longitudinal Vehicle Dynamics
5.3.1. Vehicle Performance
5.3.2. Vehicle Braking
5.4. Transverse Vehicle Dynamics
5.4.1. Steering Geometry
5.4.2. Circulation in Curves
5.5. Railroad Dynamics
5.5.1. Traction Efforts
5.5.2. Braking Efforts
5.6. Dynamics of Mechanical Microsystems
5.7. Robot Kinematics
5.7.1. Direct Kinematic Problem
5.7.2. Inverse Kinematic Problem
5.8. Robot Dynamics
5.9. Biomimicry
5.10. Dynamics of Human Movement
Module 6 Design for Manufacturing
6.1. Design for Manufacturing and Assembly
6.2. Forming by Molding
6.2.1. Foundry
6.2.2. Injection
6.3. Forming by Deformation
6.3.1. Plastic Deformation
6.3.2. Stamping
6.3.3. Forge
6.3.4. Extrusion
6.4. Conformation due to Loss of Material
6.4.1. Abrasion
6.4.2. By Chip Removal
6.5. Heat Treatment
6.5.1. Quenching
6.5.2. Tempering
6.5.3. Annealing
6.5.4. Standardization
6.5.5. Thermochemical Treatments
6.6. Application of Paints and Coatings
6.6.1. Electrochemical Treatments
6.6.2. Electrolytic Treatments
6.6.3. Paints, Lacquers and Varnishes
6.7. Forming of Polymers and Ceramic Materials
6.8. Manufacture of Composite Parts
6.9. Additive Manufacturing
6.9.1. Powder Bed Fusion
6.9.2. Direct Energy Deposition
6.9.3. Binder Jetting
6.9.4. Bound Extrusion Power
6.10. Robust Engineering
6.10.1. Taguchi Method
6.10.2. Experiment Design
6.10.3. Statistical Process Control
Module 7 Materials
7.1. Material Properties
7.1.1. Mechanical Properties
7.1.2. Electrical Properties
7.1.3. Optical Properties
7.1.4. Magnetic Properties
7.2. I-Ferrous Metallic Materials
7.3. II-Ferrous Metallic Materials
7.4. Polymeric Materials
7.4.1. Thermoplastics
7.4.2. Thermosetting Plastics
7.5. Ceramic Materials
7.6. Composite Materials
7.7. Biomaterials
7.8. Nanomaterials
7.9. Corrosion and Degradation of Materials
7.9.1. Types of Corrosion
7.9.2. Oxidation of Metals
7.9.3. Corrosion Control
7.10. Non-Destructive Testing
7.10.1. Visual Inspections and Endoscopies
7.10.2. Ultrasound
7.10.3. X-rays
7.10.4. Foucault's Currents (Eddy Currents)
7.10.5. Magnetic Particles
7.10.6. Penetrating Liquids
7.10.7. Infrared Thermography
Module 8 Mechanics 4.0
8.1. Introduction to Industry 4.0
8.2. Principles of Mechatronics
8.3. Sensorization and Detection
8.3.1. Range Detection
8.3.2. Proximity Detection
8.3.3. Contact Sensors
8.3.4. Force Detection
8.4. Actuators
8.5. Control Systems
8.6. Artificial Vision
8.6.1. Vision Sensors
8.6.2. Integrated Vision Systems
8.6.3. Advanced Vision Systems
8.7. Digital Twins
8.8. The Internet of Things
8.8.1. Hardware
8.8.2. Software and Connectivity
8.8.3. Rules
8.8.4. Services
8.9. Cloud Computing and Big Data
8.9.1. Storage Technology
8.9.2. Analysis Techniques
8.10. Machine Learning and Artificial Intelligence
Module 9 Design for Reliability, Safety and Environment
9.1. RAMS Engineering Fundamentals
9.1.1. Reliability, Maintainability and Availability Functions
9.1.2. Failure Curves
9.1.3. Statistical Distributions
9.2. Reliability of Elements
9.3. System Reliability
9.3.1. Reliability Block Diagrams-RBD
9.4. Reliability Analysis I-Qualitative Methods
9.4.1. Failure Mode and Effects Analysis-FMEA
9.5. Reliability Analysis II- Quantitative Methods
9.5.1. Fault Tree Analysis-FTA
9.6. Improved Reliability and Accelerated Life Testing
9.6.1. Reliability Improvement Plans
9.6.2. Accelerated Life Assays-HASS/HALT
9.7. Machine Safety
9.7.1. Security Management Programs
9.8. Risk Analysis
9.8.1. Risk Matrix
9.8.2. ALARP
9.8.3. Operational Hazard Studies-HAZOP
9.8.4. Safety Level-SIL
9.8.5. Event Tree Analysis-ETA
9.8.6. Root Cause Analysis-RCA
9.9. Environment and Circular Economy
9.9.1. Environmental Management
9.9.2. Fundamentals of Circular Economy
9.10. Reliability-Centered Maintenance-RCM
9.10.1. SAE Standard JA1011
9.10.2. Failure Management Policies
Module 10 Continuous Improvement of Operations
10.1. Development of Continuous Improvement Processes
10.1.1. Overall Equipment Efficiency-OEE
10.1.2. The 7 Wastes
10.1.3. Value Stream Mapping-VSM
10.1.4. Kaizen Events
10.2. Process Standardization
10.3. Visual Management
10.3.1. Kanban
10.3.2. Andon
10.4. Levelling Production-Heijunka
10.4.1. Takt-Time
10.5. Just In Time-JIT
10.5.1. 5S
10.5.2. Quick Tool Changes-SMED
10.6. Quality at the Source-Jidoka
10.6.1. Poka-yokes
10.7. Total Productive Maintenance-TPM
10.7.1. The 16 Major Losses
10.7.2. TPM Pillars
10.8. Development of Excellent People
10.8.1. Theory X and Theory Y
10.8.2. Teal Organizations
10.8.3. Spotify Model
10.9. Other Theories of Continuous Improvement
10.9.1. Six Sigma
10.9.2. World Class Manufacturing WCM
10.9.3. Theory of Constraints ToC
10.10. Change Management
This training will allow you to advance in your career comfortably"
Professional Master's Degree in Mechanical Engineering
The constant innovation and modernization regarding the technological and methodological possibilities of mechanical engineering demand from the specialized professional a continuous training based on the relevant theoretical and practical updating in the most recent fundamental novelties for the optimal development of the work of such engineering. Understanding the latent need for educational processes according to the current requirements of the sector, at TECH Global University we have designed our Professional Master's Degree in Mechanical Engineering, focused on the qualification of the professional in the current tendencies of the sector. This postgraduate program also has a special emphasis on aspects related to the management of engineering projects, and on the new technological and procedural possibilities encompassed in the concept of mechanics 4.0.
Study a Professional Master's Degree in Mechanical Engineering completely online
Due to its extensive field of action there is currently a great labor demand for professionals specialized in mechanical engineering. In our Professional Master's Degree, through a modular educational process designed under the current requirements of the sector, you will acquire all the tools, knowledge and skills necessary for the correct labor development of the practice of mechanical engineering. In this way, the professional's knowledge is up to date in concepts as relevant as: the new methodological alternatives regarding the planning and development of thermal, hydraulic and pneumatic machines; the particularities corresponding to the design for safety, reliability and environmental care; and the importance of the knowledge of the possibilities offered by the use of biomaterials and nanomaterials in manufacturing processes.