Engineer and innovate for life
MIMOS Mechanical Engineering team has been designing and developing robust, award winning products. Using proven CDOV methodology, our design cycle results in high quality product from Conceptual to Production. Our services can help bring your ideas to market – in a complete package of concept, design and verification to ensure high customer satisfaction.
MECHANICAL DESIGN SERVICES
Customer Requirements Gathering
Identify Critical Requirements
3D Design Detail using Computer Aided Design (CAD)
2D Drawing for Manufacturing
Design for Six Sigma (DFSS)
FINITE ELEMENT ANALYSIS (FEA)
Analyse Structural and Material Strength
Static and Dynamic Analysis
Quasi-Static and Time Based Analysis
Example of Simulation Cases – Drop Test, Impact Test, Vibration, Adhesion, Contact Pressure, Structural Stress
COMPUTATIONAL FLUID DYNAMIC (CFD)
Thermal Management Analysis
Incompressible Fluid Flow Analysis
Examples of Simulation Cases – Heat Sink, Drag of an object
FLUID-STRUCTURE INTERACTION (FSI)
Analyse both Structural and Fluid Flow Simultaneously using Coupled Eulerian-Lagrangian (CEL) Method or Co-Simulation FEA-CFD Method
Example of Simulation Cases – Wind Loading, Structural Stress upon impacted by water
DESIGN FOR SIX SIGMA
DESIGN OF EXPERIMENT (DOE)
Design of experiments (DOE) is a systematic method to determine the relationship between factors affecting a process and the output of that process. In other words, it is used to find cause-and-effect relationships. This information is needed to manage process inputs in order to optimize the output.
The Pugh matrix helps determine which items or potential solutions are more important or ‘better’ than others. It is employed after capturing voice of the customer (VOC). It is a scoring matrix used for concept selection in which options are assigned scores relative to criteria. The selection is made based on the consolidated scores. Before starting a detailed design, there are many options – this tool helps with selecting the best option.
Tolerance analysis is used in product design to understand how imperfections in parts as they are manufactured, and in assemblies as they are put together, affect the capability of a product to meet customer expectations. Tolerance analysis is a way of understanding how sources of variation in part dimensions and assembly constraints propagate across parts and assemblies, and how that total variation affects the capability of a design to achieve its design requirements within the process capabilities of manufacturing organizations and supply chains.
Design Failure Modes and Effects Analysis – Method to predict failure modes and their effects to the product or customer effectively.
We provide world-class engineering services in the most professional manner possible, every time
We offer a broad range of end-to-end mechanical engineering solutions.
We provide engineering services at the right price, suitable for startups, SMEs and even corporations.