3.1 1.3 Engineeriang Design Process.pptx

Learn Engineering Simulations with ANSYS from Scratch Engineering Design Process

Learn Engineering Simulations with ANSYS from Scratch PROTOTYPING Prototyping is an experimental process where design teams produce working models of the concept in order to verify whether the concept is able to satisfy the needs or not.

Learn Engineering Simulations with ANSYS from Scratch PROTOTYPING Prototyping is an experimental process where design teams produce working models of the concept in order to verify whether the concept is able to satisfy the needs or not. Before CAD, physical prototypes of the design were manufactured and in some industries they still are.

Learn Engineering Simulations with ANSYS from Scratch PROTOTYPING Prototyping is an experimental process where design teams produce working models of the concept in order to verify whether the concept is able to satisfy the needs or not. Before CAE, physical prototypes of the design were manufactured and in some industries they still are. With CAE applications such as ANSYS, it is now possible to analyse a design in a computer simulation instead of real world testing.

Learn Engineering Simulations with ANSYS from Scratch PROTOTYPING Prototyping is an experimental process where design teams produce working models of the concept in order to verify whether the concept is able to satisfy the needs or not. Before CAE, physical prototypes of the design were manufactured and in some industries they still are. With CAE applications such as ANSYS, it is now possible to analyse a design in a computer simulation instead of real world testing. This helps the design team by:

Learn Engineering Simulations with ANSYS from Scratch PROTOTYPING Prototyping is an experimental process where design teams produce working models of the concept in order to verify whether the concept is able to satisfy the needs or not. Before CAE, physical prototypes of the design were manufactured and in some industries they still are. With CAE applications such as ANSYS, it is now possible to analyse a design in a computer simulation instead of real world testing. This helps the design team by: Reducing cost Saving time

Learn Engineering Simulations with ANSYS from Scratch SOLVING A DESIGN PROBLEM Any design problem or engineering problem can be solved in three ways:

Learn Engineering Simulations with ANSYS from Scratch SOLVING A DESIGN PROBLEM Any design problem or engineering problem can be solved in three ways: ANALYTICAL METHOD EXPERIMENTAL METHOD NUMERICAL METHOD

Learn Engineering Simulations with ANSYS from Scratch SOLVING A DESIGN PROBLEM Any design problem or engineering problem can be solved in three ways: ANALYTICAL METHOD EXPERIMENTAL METHOD NUMERICAL METHOD Classical method that uses equations to yield 100 % accurate results Only for simpler problems. Example: Solving Fourier law to determine heat transfer between two ends of a metal rod

Learn Engineering Simulations with ANSYS from Scratch SOLVING A DESIGN PROBLEM Any design problem or engineering problem can be solved in three ways: ANALYTICAL METHOD EXPERIMENTAL METHOD NUMERICAL METHOD Classical method that uses equations to yield 100 % accurate results Only for simpler problems. Example: Solving Fourier law to determine heat transfer between two ends of a metal rod Comparatively costly method that uses practical experimentation to yield results. Results may not be 100% accurate. Example: Performing the heat transfer experiment

Learn Engineering Simulations with ANSYS from Scratch SOLVING A DESIGN PROBLEM Any design problem or engineering problem can be solved in three ways: ANALYTICAL METHOD EXPERIMENTAL METHOD NUMERICAL METHOD Classical method that uses equations to yield 100 % accurate results Only for simpler problems. Example: Solving Fourier law to determine heat transfer between two ends of a metal rod Comparatively costly method that uses practical experimentation to yield results. Results may not be 100% accurate. Example: Performing the heat transfer experiment Uses mathematical approximations and requires assumptions. Results needed to be verified by either Experimental or Analytical Method. Finite Element Method used by ANSYS is a Numerical Method

3.1 1.3 Engineeriang Design Process.pptx

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