{
  "target_application": "Advanced Liquid Cooling Systems",
  "physical_properties": {
    "density": "8",
    "tensile_strength": "515.0",
    "max_service_temperature": "870.0",
    "hardness": "85 HRB",
    "standard_tolerance": "±0.1mm - ±0.2mm"
  },
  "manufacturing_limits": {
    "equipment_hard_specs": "Build Volume: 150 x 150 x 200 mm (W x D x H); Laser Type: Fiber Laser; Laser Power: 200W or 500W option; Typical Layer Thickness: 20-80 μm; Max Scanning Speed: 7 m/s; Beam Spot Diameter: 70-100 μm; Inert Gas Protection: Argon/Nitrogen, with O2 content actively maintained below 100 ppm.",
    "min_feature_size": "Min Wall: 0.4mm; Min Hole: 0.6mm",
    "equipment_precision_grade": "As-printed dimensional accuracy is typically within ±0.1 mm for features under 100 mm. Post-machining is required for tolerances tighter than ISO 2768-f or IT Grade 10. Surface finish (Ra) as-printed is around 6-12 μm, requiring secondary finishing."
  },
  "commercial_parameters": {
    "factory_advantage": "Fabricating complex 316L stainless steel manifolds for liquid cooling systems traditionally involves multiple CNC setups and welding, introducing risks from work-hardening and compromising corrosion resistance in the heat-affected zones. We bypass these issues entirely. By leveraging Selective Laser Melting on our BLT S210, we print these components as a single, monolithic part. The machine's exceptional atmospheric control and stable gas flow are critical, allowing us to achieve near-void-free parts with over 99.9% density, a non-negotiable for leak-proof systems. This single-step approach eliminates brazed or welded joints, a common source of microscopic voids and failures. Our strict adherence to on-plate stress relief protocols, enabled by the S210's process stability, tames the material's inherent residual stresses, ensuring dimensional accuracy and part integrity straight off the build plate.",
    "target_volume": "Optimized for 1-50 units"
  },
  "_dev_note_visual_proofs": "Currently empty by default. This array is a reserved structural hook. It will be asynchronously populated with YouTube/Video metadata by the 06_video_injector.py post-processing.",
  "visual_proofs": [],
  "mechanofab_connect": {
    "about_us": "MechanoFab is a premium managed manufacturing platform empowering global hardware innovators.",
    "instant_quote_url": "https://mechanofab.com/quote",
    "engineering_support_email": "rfq@mechanofab.com"
  }
}