SPM & Machine Design
Special Purpose Machines Design SPM are designed by an experienced design and execution team. The team has successfully provided assembly automation to our clients. Special Purpose Machines Design SPM and low cost automated assembly fixtures are specifically designed to automate any assembly / material handling / inspection and testing process in an assembly or process line.Specializing in system and industrial machine design for industrial equipment in industries ranging from transportation and heavy machinery to material handling and medical, Pristine focuses on mechanical design to create the most useful, efficient machine possible. Possessing the ability to design industrial machinery and systems with a range of operation types, including automatic, continuous, synchronous, modular, and turnkey systems, we feature electrical, mechanical, hydraulic, pneumatic, and programming expertise, which allows us to design complete industrial systems solely in our facility.
Design SPM custom designed to do a specific operation or a combination of some operations on a specific job or on a small variety of similar jobs, in a mass scale, at short cycle times, using the latest parametric software. Under the guidance of our excellent Design SPM consultants and Design Consultants, we offer excellent SPM design services to suit our customer's specific requirements with high precision and at affordable cost.
With consistent commitment to excellence, we are emerged in the business of offering to our customers, a variant band of SPM Design Service. The SPM design services are rendered under the command of talented designers under the expected time frame. Besides this, we provide accurate results according to the needs and demand of our clients.
Features:
Quality services
Market leading prices
Flawless design.
Design SPM
With consistent commitment to excellence, we are immersed in the domain of offering to our customers a distinctive spectrum of SPM Design Service. These services are rendered under the command of skilled professionals within stipulated time frame. Besides this, we provide accurate results according to the needs and demand of our clients.
Backed by rich industry experience and highly experienced team of professionals, we are offering the finest quality SPM Designing Service. This service is highly cherished in the market due to its characteristics like reliability and promptness. The offered service is used to check the quality and functionality of the special purpose machine Design SPM. In our provided service, a rectified model for the machine is designed to ensure its excellent performance. Furthermore, this service is highly acclaimed in the market due to its different qualitative attributes.
Features:
Durability
High Reliability
Set Standard of Quality
High Quality Services
Keeping in mind the precise demands of clients, we offer a wide range of Design SPM Special Purpose Machine Design Service. This service is extensively demanded by clients owing to its robust design, dimensional accuracy.
Virtual Simulation for Design validation
Finite Element Analysis (FEA )
Finite Element Analysis (FEA) is used to understand and predict product behavior and is extremely valuable for today's demanding products. Hexapent’s talented engineers model your product using Simulation software’s from your CAD files. We collaborate with design engineers for analyzing the product behavior, predict failures and creep, and optimize the product design accordingly. Our team of FEA specialist engineers helps your design engineers take design decisions early and expedite product development stage.
We provide design optimization and analysis services for mechanical equipment used in various plants such as industrial plants, sheet metal product manufacturers, automotive OEM and ancillaries and pressure vessel manufacturers
Our team of FEA specialist engineers helps your design engineers take design decisions early and expedite product development stage and avoid last minute hassles. . To ensure accuracy in results, we also perform validity checks such as convergence analysis, boundary conditions review and hand calculations, allowing manufacturers to validate their designs faster.
Virtual simulation during a Product Design phase helps to -
Improve your existing designs by weight/material reduction through design optimization techniques, thus minimizing costs with our Finite Element Analysis Services.
Analysis for designers or manufacturers looking for a basic component stress analysis by our experienced CAE engineers.
Analyze the most complex engineering problems that require complex physics simulation and testing.
Help you design better products with optimization, trade-off and sensitivity studies.
Conduct engineering failure analysis and root cause analyses using FEA, CFD and testing.
Product Recall, Expert Witness, Litigation, and Patent Infringement engineering support work
Hexapent’s Finite Element Analysis (FEA) Capability:
AEG provides a full range of engineering simulation services in the form of FEA (Finite Element Analysis) to drive your product designs from concept to product. AEG has over a decade of finite element analysis experience and can solve your most difficult engineering analysis problems. We have extensive experience in many areas of engineering and analysis, including:
Contact us to outsource blow molding and plastic injection molding Contact Us.
Linear and non-linear static:
Response of structure to critical loads and modeling of contact (allowing analysis of assemblies), non-linear material behavior and large deformations
Buckling:
Critical compression static load or combination of loads that results in instability
Normal modes, frequency response and response spectrum:
Response to vibrations and frequency driven excitations.
Random response:
Response of structure to excitations defined with probabilistic magnitude (spectral density function)
Transient, dynamic, vibration and seismic response:
Response of structure through time with variations of boundary condition
Impact (implicit and explicit solvers):
Response of structure following collision (crash tests and drop tests)
Steady state and transient heat transfer:
Temperature distribution within a solid body Thermal stress: Stress induced by temperature distribution
Fatigue (multi axial and vibration fatigue analysis):
Predict the life of a structure subjected to cyclic loading or vibrations
Optimization :
Parametric and Topological
Forensic engineering :
failure analysis and root cause diagnostic, reconstruction of impact and accident using simulation, biomechanical engineering.
Crash and Safety
We have capabaliity to perform Impact and Crash simulation with specific application to automotive domain to comply with safety regulations of different countries like, FMVSS, CMVSS, ESA etc,
Area of expertise available at Smart Enovation's is listed below,
FullVehicle Modeling and Assembly
Linear / Non-Linear Analysis, Boundary & Contact Static Analysis
Full vehicle crash analysis (FMVSS/CMVSS/IIHS/EURO-NCAP/J-NCAP)
Design Optimization
NVH – Trim body and full vehicle
Coupled Thermal and Structural Analysis
Vehicle dynamics and kinematics
Combined experimental and analysis correlation
Pendulum impact simulation with different barrier positions/angles
Fuel rail crash and safety simulation
Head impact and HIC criteria simulation
Seats, Seat belts, Seat belt anchorages, etc., are safety critical items for the passenger in case of sudden acceleration/deceleration and accidents. Seat components, Head restraints, Seat assembly, Seat belt anchorage, Crashworthiness evaluation takes the lead to assess the safety and riding comfort of the vehicle users. Validating the design by virtual simulation for applicable safety regulations of different countries like, FMVSS, CMVSS, ESA etc, are mandatory.
Areas of expertise where Hexapent has the expertise is listed below,
Quasi-static analysis FMVSS 207/210/202/202A
Static Anchorage strength test (FMVSS 207/210)
Simulation for Forward and Rearward Load
Head Restraints (FMVSS 202/202A)
Cushion frame transverse loading
Forward and Rearward crash simulation
Modal sensitivity and Frequency optimization
Mass Optimization
Test and Analysis Correlation