Prepare Print Model
技能 已验证 活跃Export and optimize 3D models for FDM/SLA printing including STL/3MF export, mesh integrity verification, wall thickness checking, support generation, and slicing. Use when exporting from CAD or modeling software for 3D printing, verifying STL/3MF files are printable before slicing, troubleshooting models that fail to slice correctly, optimizing part orientation for strength or surface finish, or converting between model formats while preserving printability.
To ensure 3D models are properly prepared and optimized for successful printing, reducing failures and improving print quality by automating verification and configuration steps.
功能
- Export 3D models to STL/3MF
- Verify mesh integrity (manifold, holes, normals)
- Check minimum wall thickness
- Optimize print orientation for strength and finish
- Generate support structures
- Configure slicer profiles
- Preview sliced layers
使用场景
- Exporting models from CAD software for 3D printing
- Verifying STL/3MF files are printable before slicing
- Troubleshooting models that fail to slice or print
- Optimizing part orientation for strength or surface finish
- Converting between model formats while preserving printability
非目标
- Creating 3D models from scratch (future skill)
- Directly operating a 3D printer
- Advanced material selection beyond basic parameters
安装
/plugin install agent-almanac@pjt222-agent-almanac质量评分
已验证类似扩展
Select Print Material
99Choose 3D printing materials based on mechanical, thermal, and chemical requirements. Covers PLA, PETG, ABS, ASA, TPU, Nylon, and resin variants with property comparisons. Use when selecting material for parts with specific mechanical or thermal requirements, choosing for outdoor or chemical exposure, evaluating food-safe or biocompatible applications, balancing printability vs. performance, or troubleshooting material-related print failures.
Define SLO/SLI/SLA
99Establish Service Level Objectives (SLO), Service Level Indicators (SLI), and Service Level Agreements (SLA) with error budget tracking, burn rate alerts, and automated reporting using Prometheus and tools like Sloth or Pyrra. Use when defining reliability targets for customer-facing services, balancing feature velocity against system reliability through error budgets, migrating from arbitrary uptime goals to data-driven metrics, or implementing Site Reliability Engineering practices.