Cryogenics Case Study 

Eliminating Welds, Leak Paths, and Tolerance Risk in GM Cryocooler Helium Cylinders 

For more than thirty years, DPI has partnered with a leading cryogenics OEM manufacturing Gifford–McMahon (GM) cryocoolers and cryopumps. Their early helium cylinders were produced as multi-piece welded assemblies, using separate tubes, flanges, and multiple weld joints — each one a potential helium leak path in an ultra-demanding environment. 

DPI collaborated with the customer to convert these welded assemblies into single-piece machined components, ultimately consolidating both helium stages into one fully machined, one-piece 304 stainless cylinder. The redesign removed every internal weld, dramatically improved long-term reliability, and simplified the entire manufacturing workflow. 

The Challenge: Welded Assemblies With Built-In Risk 

Legacy GM cryocooler cylinders required: 

• Two flanges 
• Four tubes 
• Multiple welds per assembly 
• Numerous leak points for ultra-small helium molecules 
• Weld distortion, porosity, and alignment issues 
• Labor-intensive fabrication and inspection 

In cryogenic systems, helium leak integrity is mission-critical. Even microscopic weld defects can create performance drift, long-term inefficiency, or premature failure. 

Phase 1: DPI’s Breakthrough to Single-Piece Cylinders 

DPI’s first redesign replaced multi-piece welded assemblies with single-piece machined cylinders produced from 304 stainless bar stock. 

Key Benefits 

• Dramatic reduction in leak paths 
• Improved stage-to-stage alignment 
• Higher structural consistency 
• Fewer welds required in the final assembly 
• Lower scrap and reduced rework 
• Improved cryocooler performance and stability 

This phase set the foundation for decades of reliable production and deeper engineering collaboration. 

Phase 2: One-Piece Multi-Stage Cylinder Through DFM Collaboration 

After years of proven success, DPI and the customer pushed the design further using Design for Manufacturing (DFM) principles. 

Together, they engineered a next-generation solution that: 

• Consolidated the 1st-stage and 2nd-stage cylinders 
• Machined both stages from a single solid piece of 304 stainless 
• Eliminated every weld joint between stages 
• Achieved previously weld-dependent geometries through machining alone 

The result was a fully machined, multi-stage cryogenic cylinder with zero internal leak paths and significantly enhanced reliability. 

Advanced Machining Capability: Precision Tolerances & Ultra-Fine Finishes 

One of the most significant engineering achievements in this partnership is DPI’s ability to deliver: 

• 8–12 Ra surface finishes in deep, narrow cylinder bores 
• ±0.0004″ tolerances held across the full bore length 
• Machining only, no honing, no lapping 

This level of precision is: 

• Beyond what most machine tool OEMs expect their equipment to achieve 
• Beyond the capability thresholds many cutting tool manufacturers specify 
• Traditionally considered possible only through specialized finishing processes 

DPI achieves these results repeatedly through: 

• Tight process control 
• The right machining platform 
• Highly optimized tooling and toolpaths 
• Decades of accumulated cryogenic machining expertise 

This capability is a core differentiator for DPI, and a critical reason cryogenic OEMs trust us with their most sensitive components. 

Results 

Leak Path Elimination 

• Multi-piece cylinders: numerous helium leak risks 
• One-piece cylinders: all internal leak paths removed 

Reliability & Performance 

• Superior helium containment 
• Improved thermal uniformity 
• Greater structural integrity under cycling 

Manufacturing Efficiency 

• No welding between stages 
• Simplified inspection 
• Less scrap, less rework 
• Lower total assembly cost 

Production Capability 

• Precision bores with 8–12 Ra finishes 
• ±0.0004″ tolerances held consistently 
• No secondary finishing processes required 

Customer Impact 

• Longer cryopump service life 
• Higher yields 
• Greater performance stability 
• Stronger competitive market position 

Conclusion 

By transforming welded, multi-piece GM cryocooler cylinders into single-piece machined components, and by achieving ultra-tight tolerances and surface finishes through machining alone, DPI set a new standard for cryogenic manufacturing reliability and performance. 

This decades-long engineering partnership demonstrates DPI’s core strengths in DFM collaboration, advanced machining capability, and disciplined process development. DPI continues to support this customer’s evolving cryogenic platforms and remains a trusted manufacturing partner in the global cryocooler and cryopump market.