MatSimKit-HT
Material High Throughput Software
"Make alloy design as simple as filling a form"
Powered by JMatPro, transforms point-by-point manual calculations into fully automated batch workflows — configure once, get complete material property data for dozens to hundreds of composition points.
Product Overview
High-Throughput Batch Calculation Engine
Engineers simply define the variable range and step size for each composition element; the software automatically enumerates all Cartesian product combinations and submits every task to the JMatPro® engine in batch, displaying a real-time progress bar for each task. For example, scanning Cr (1.0–2.0%, step 0.1%) and Ni (3.0–4.0%, step 0.1%) simultaneously generates 11×11 = 121 combinations completed in a single run — over a hundred times faster than traditional point-by-point operation. All tasks execute in the background so engineers can continue other work without waiting.
The software fully supports all nine alloy types in JMatPro® — iron alloys, cobalt alloys, nickel alloys, aluminum alloys, magnesium alloys, titanium alloys, copper alloys, zirconium alloys, and tin alloys — covering mainstream materials across aerospace, automotive, energy, and electronics industries. Multiple calculation types can be submitted simultaneously in a single batch run, including thermodynamic calculations, thermophysical property calculations, solidification calculations, mechanical property calculations, and kinetic phase transformation calculations, giving engineers comprehensive material property data in one go.
Automated Material Property Data Extraction
The core value of MatSimKit-HT lies in automatically extracting the results engineers actually need. JMatPro® calculations produce a large volume of intermediate data; the software automatically identifies and extracts the target parameters of interest — whether solidification thermophysical curves, CCT phase transformation temperatures, high-temperature yield strength, or flow stress data — and organizes them into structured output, eliminating the tedious work of manual lookup and collation.
For requirements beyond the standard calculation modules, the software supports custom secondary-calculation models: for example, hot cracking sensitivity (HCS) can be automatically computed from solidification results using a user-defined algorithm, with the output integrated directly into the high-throughput results. Any calculation type supported by JMatPro® can be incorporated into the batch workflow through custom development, providing highly tailored data extraction solutions for specific engineering needs.
Intelligent Filtering and Statistical Analysis
Faced with dozens or hundreds of results, the built-in multi-condition constraint engine lets engineers set multiple simultaneous rules — for example, "Ms < 350°C AND yield strength > 800 MPa" — applying them with logical AND to automatically filter qualifying compositions. Combined with goal-directed sorting (maximize, minimize, or approach a target value), the optimal composition is placed at the top and the top-5 results are highlighted with color badges.
The summary table consolidates key computed indicators for all composition points in a single view; clicking any row highlights the corresponding curves in the chart panel for in-depth analysis, and filter conditions can be adjusted at any time with instant result refresh — no recalculation needed. The statistical visualization feature is an effective tool for exploring high-throughput results: users freely assign any performance parameter to the X-axis, Y-axis, and color dimension, rendering all composition points as a 2D scatter plot that makes composition–property relationships and trends immediately visible.
Knowledge Base and Historical Data Management
The Knowledge Base organizes data by material grade and features automatic calculation recognition: upon completion of each run, the software automatically identifies which material the calculation belongs to and files the results under the corresponding entry, so multiple batches of results for the same material accumulate together without any manual sorting. Named composition presets can be saved and reloaded in one click, and historical curves can be retrieved at any time for longitudinal comparison.
The entire knowledge base can be exported as a file and shared across machines or team members, enabling easy synchronization and handover. As data accumulates, engineers can search past records by material to avoid redundant calculations — continuously building an irreplaceable enterprise material knowledge asset.
Product Highlights
Days of Work Done in Hours
Batch calculation compresses multi-day point-by-point composition exploration into hours, freeing engineers from repetitive operations to focus on analysis and decision-making.
Nine Alloy Types, Multiple Calculation Modes
Full support for all nine JMatPro® alloy types and multiple calculation categories in a single run — one tool covering the complete material data needs from casting to thermomechanical processing.
Multi-Constraint Filtering, Optimal Solution in One Click
Set multiple performance constraints simultaneously; the software automatically filters and ranks results, placing the optimal composition at the top and drastically shortening the path from results to engineering decisions.
Auto-Archived Results, Knowledge That Grows Over Time
Results are automatically filed by material grade; historical records are always retrievable, turning accumulated calculation data into reusable team knowledge assets that survive personnel changes.
Application Scenarios
Casting Process Simulation
Rapidly generate complete thermophysical curves from liquidus to room temperature for direct use as material input in casting simulation software.
Heat Treatment Design
CCT calculation combined with high-throughput screening to systematically assess the effect of composition variation on hardenability and hardness.
Hot Forming Data Preparation
Batch-calculate flow behavior of multi-composition alloys at different process temperatures to support forming window determination and load estimation.
New Alloy R&D
High-throughput calculation + multi-dimensional filtering replaces extensive trial-and-error experiments, significantly reducing development cost and time.
Technical Specifications
| Operating System | Windows 10+ (64-bit) |
| Version | V2.1.0 |
| Calculation Engine | JMatPro® API (separate license required) |
| Alloy Systems | Ni-base Superalloys / General Steels / Customization |
| Interface Language | Simplified Chinese / English |
| Data Storage | Local storage, no internet required |