DeepJoint

Leading AI Solutions for Material Joining

  • World First AIGC Model for Material joining.
  • Transforming joining design through AI-generated knowledge-enhanced text, physical images, and process animations of joints in real-time.
Idea → Result in Real-time
1000x Faster than CAE and Physical Test
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Who We Are

We are an innovation team with 20 years of experience in materials and joints, specializing in AI, CAE and Testing.
DeepJoint® is at the forefront of revolutionizing material joint design, integrating Physical AI, Advanced Computational Methods and Material Engineering.

DeepJoint Platform Interface

Your Digital Expert

Providing expert knowledge and insights through customized Large Language Model(LLM), acting as AI agent to co-work with joining engineers with our databases, models and APIs. Also supporting customized LLM models with your private and valued data.

Your Digital Joiner

Creating real-time joining solutions (Text, images and animations) through our latest AI algorithms and pretrain-models, including auto-measurements, auto-identifications(materials/paramters), predictions(process,static & fatigue performance,cracking...),optimizations etc.

Your Digital Tester

Estimating and simulating materials and joint performance under various conditions, reducing the need for extensive physical testing.

Motivation & Challenge

Understanding the critical importance and complex challenges of material joining in modern manufacturing.

Motivation

Joining is a key process in manufacturing, widely used, known as the "sewing machine" of materials.

> 80% materials needs to be joined

> 70% failure related to joints

Challenge

Joining is a high-dimensional and strongly non-linear problem, leading to long design cycle and high cost

Weeks for physical tests and often lask instant resources

Days for CAE simulations and often have low fidelity

Our AI Modules - Industry Leading Solutions

Comprehensive suite of AI-powered tools and models designed to revolutionize material joining processes from concept to implementation.

AI E-chat

Interactive AI assistant providing real-time consultation on material joining challenges and solutions.

AI Profiler

Analyzes material properties and creates detailed geometrcial profiles for given joints.

AI Predictor

Forecasts joint performance and lifespan based on design parameters and environmental conditions.

AI Designer

Creates and real-time verifyies user-defined joining designs based on specified requirements and constraints.

AI Optimizer

Refines existing joint designs to improve performance, durability, and reliablity.

AI Analyzer

Performs comprehensive analysis of joint and reverse engineering.

AI Selector

Recommends optimal joining/welding methods and materials based on application requirements.

AI Tester

Gets materials' attributes with limited size or info.Simulates joint performance in virtual environments to validate designs before physical implementation.

Examples of Supported Joining Methods

DeepJoint® leverages a pretrained multi-modal architecture with native compatibility for customized AI agentic tools and knowledge databases.
Our flexible ecosystem adapts to support any joining methods within a secure and exclusive environment for your customized datasets and requirements.
We have cooperated with multiple suppliers and OEMs for technical validations.

SPR

Self-Piercing Riveting - A cold-forming process that joins two or more sheets of material by driving a rivet through the top layers and upsetting it within the bottom layer, creating a mechanical interlock.

CLINCH

Clinching - A joining method that uses a punch and die to form a mechanical interlock between sheet materials without additional fasteners, creating a button-like joint.

RSW

Resistance Spot Welding - A process where contacting metal surfaces are joined by the heat obtained from resistance to electric current, creating a fusion zone between the materials.

FDS

Flow Drill Screwing - A process that combines thermal drilling and thread forming in a single operation, creating a strong threaded connection without pre-drilling.

ADH

Adhesive Bonding - A material joining technique that uses a non-metallic substance (adhesive) to hold materials together by surface attachment without mechanical fasteners.

CMT

Cold Metal Transfer - An advanced welding process with controlled heat input that provides spatter-free material transfer, ideal for joining thin materials and dissimilar metals.

Our Services

Comprehensive solutions tailored to your material joining needs, powered by cutting-edge AI technology.

Technical Consulting

Expert guidance on material joining challenges, leveraging our AI-powered insights and industry expertise to solve complex problems.

  • AI-assisted Problem Analysis
  • Joining Solutions and Automations
  • Advanced CAE and Physicial Testing

API/Software Customization

Tailored AI solutions designed to address your specific material joining challenges and integrate with your existing workflows.

  • Custom AI module development
  • Integration with existing systems
  • Ongoing support and updates

Hardware Development

Innovative hardware solutions that integrate with our AI software and models.

  • Sensor integration for real-time solutions
  • Edge Computing portable device for equipment or labs
  • Customized Quality and Design Systems

Database Construction

Comprehensive material and joining parameter databases to power your AI-driven joining solutions.

  • Material property databases
  • Joining process and attributes databases
  • Historical performance analytics

Get in Touch

Ready to revolutionize your material joining processes? Contact us for a demonstration or to discuss your specific needs.

Business & Demo Request

info@deepjoint.tech