Description
The EP-JZM is a heavy-duty metallic diaphragm coupling — torque transmitted entirely through elastic deflection of stainless steel diaphragm packs bolted alternately to the drive and driven flanges. Zero backlash, no lubrication required, operating temperature range from -50°C to +300°C, and speed rating beyond 10,000 rpm. The metallic diaphragm flexible coupling is the engineering default for gas turbine, steam turbine, and high-speed centrifugal compressor applications where elastomeric couplings cannot survive the temperature or speed, and where gear couplings introduce too much backlash for the positional accuracy requirement.
EP-JZM Diaphragm Coupling Specifications
The EP-JZM range provides industrial-grade metallic diaphragm couplings for high-speed, high-temperature, and high-precision applications. The defining parameters — zero backlash, lubrication-free operation, and extreme temperature range — distinguish the diaphragm coupling from elastomeric and lubricated alternatives. Specific size selection depends on operating speed, transmitted power, ambient temperature, and acceptable misalignment range.
| Parameter | Standard Range | Notes |
|---|---|---|
| Flexible Element | Stainless steel diaphragm pack | 316L stainless steel (standard) |
| Backlash | Zero | Elastic deflection torque path |
| Lubrication | None required | Maintenance-free |
| Temperature Range | -50°C to +300°C | +450°C with high-temperature alloy diaphragm |
| Speed Rating | Up to 10,000+ rpm | Higher with precision balance |
| Angular Misalignment | 0.5° to 1° | Single-pack typical |
| Axial Compliance | Good | Optimised in diaphragm geometry |
| Radial Misalignment | Spacer-pack configuration | Two diaphragm packs with intermediate spacer |
| Torque Range | 100 N·m to 500 kN·m | Application-specific sizing |
| Quality Standard | ISO 9001 certified | API 671 turbomachinery applicable |
Specific torque and size selections are determined by application engineering — provide operating speed, transmitted power, ambient temperature, and shaft diameters to our Sydney technical team for size recommendation. Custom diaphragm pack configurations and high-temperature alloy options are available for specialised applications.

EP-JZM Series Heavy Machinery Diaphragm Coupling – stainless steel diaphragm pack, zero backlash, lubrication-free. Ever Power Flange Couplings Australia Ltd.
How the Diaphragm Coupling Transmits Torque
The EP-JZM transmits torque through a pack of thin convoluted stainless steel diaphragm discs bolted alternately to the drive flange and the driven flange. As the input shaft rotates, the alternating bolt pattern forces the diaphragm pack to wind up elastically — the deflection of the metal transmits the torque without any sliding contact, without lubrication, and without backlash. The diaphragm pack’s geometry is designed so the elastic deflection also accommodates angular and axial shaft misalignment within the rated envelope.
This pure-elastic torque transmission has profound consequences for turbomachinery applications. No rubber element exists to degrade at high temperature or under UV/ozone exposure. No lubricated sliding contact exists to wear over time or contaminate downstream equipment. No spline-fit clearance exists to introduce backlash that would compromise positional accuracy. The metallic diaphragm coupling delivers a torque-transmission characteristic that no other coupling type can match within the high-speed high-temperature precision envelope.
Why Turbomachinery Specifies Diaphragm Couplings
Gas turbines, steam turbines, and high-speed centrifugal compressors operate at speeds and temperatures that exceed the design envelope of any elastomeric coupling. Gear couplings — historically the alternative for these applications — introduce backlash and require periodic lubrication that contaminates downstream equipment with grease and creates fire hazards in hot installations. The diaphragm coupling solves both problems: zero backlash for positional accuracy, no lubrication for fire safety and downstream cleanliness.
Construction and Material Specification
The diaphragm pack is the heart of the EP-JZM. Standard packs use 316L stainless steel discs — chosen for the combination of fatigue resistance, corrosion resistance, and elevated-temperature mechanical property retention. Disc thickness ranges from 0.3 to 1.5 mm depending on size class and torque rating. Disc count per pack ranges from 6 to 24 discs, with thicker packs providing higher torque rating at the cost of slightly reduced misalignment compliance.
For high-temperature applications above 300°C, nickel-base superalloy diaphragm packs are available. Hastelloy and Inconel variants extend the operating temperature range to +450°C with appropriate fatigue-life derating. The hub flanges are typically machined from medium-carbon steel forgings with corrosion-protective surface treatments for industrial atmosphere protection.
Engineering Features at a Glance
⚙️ Zero Backlash Torque Transmission
Pure elastic deflection of metallic diaphragm pack. No sliding contact, no spline clearance, no rubber compression. Backlash-free in both rotational directions.
🌡️ Extreme Temperature Operating Range
Standard 316L stainless: -50°C to +300°C. High-temperature alloy options (Hastelloy, Inconel) to +450°C. Far exceeds elastomeric coupling capability.
💨 10,000+ RPM Speed Rating
No elastomeric mass to limit critical speed. Precision-balanced assemblies operate above 20,000 rpm in some configurations. Standard for turbomachinery applications.
🛢️ Lubrication-Free Operation
No grease, no oil, no maintenance lubrication requirement. Eliminates contamination of downstream equipment and removes the fire hazard of lubricated couplings in hot installations.
📋 API 671 Turbomachinery Compatible
Standard EP-JZM specifications support API 671 turbomachinery coupling requirements. Refinery, petrochemical, and gas processing facility applications.
🔧 Diaphragm Pack Field Replaceable
Diaphragm pack can be replaced without removing hubs from shafts. Reduces planned maintenance time and eliminates the alignment baseline recreation that hub removal would require.

EP-JZM diaphragm pack assembly – alternating bolt pattern transmits torque through elastic deflection of the metal discs.
Turbomachinery and High-Speed Industrial Applications
EP-JZM applications cluster around turbomachinery and high-speed industrial drives where the operating envelope exceeds elastomeric coupling capability. Gas turbine generators, steam turbine drives, high-speed centrifugal compressors and pumps, and precision servo positioning systems all match this profile. The combination of zero backlash and lubrication-free operation is uniquely valuable in these applications.
Gas Turbine and Steam Turbine Applications
Gas turbine compressor and generator drives use EP-JZM couplings between the turbine output shaft and the compressor or generator input shaft. Steam turbine generator couplings perform the same function in steam plant. The high operating temperature (typical ambient 80-150°C in the coupling area, with occasional exposure to hotter steam leakage) demands a coupling type that can survive without elastomeric degradation. Zero backlash supports the positional accuracy requirements of precision-controlled turbine-generator systems.
High-Speed Centrifugal Compressors and Pumps
LNG plant, petrochemical, and gas processing facility centrifugal compressors operate at 8,000 to 15,000 rpm — far above the speed envelope of elastomeric couplings. The EP-JZM lubrication-free operation also prevents the downstream contamination that lubricated couplings would introduce into the process gas stream. API 671 specifications for refinery turbomachinery couplings are widely supported by the EP-JZM standard configuration.
Selecting the Correct Diaphragm Coupling Configuration
EP-JZM sizing starts with operating speed and transmitted power. The lubrication-free metallic construction means no lubrication-derived service factor adjustments are needed. The temperature operating range is normally within the standard 316L envelope for all but the most extreme installations. The defining selection question is typically single-pack versus spacer-pack configuration.
Single-pack configurations handle angular and axial misalignment within the diaphragm pack envelope. Spacer-pack configurations — two diaphragm packs separated by an intermediate spacer tube — add radial misalignment compensation through the spacer length. Specify spacer-pack where the application requires parallel offset compensation, where back pull-out maintenance access is required, or where rigid-couple risk needs the additional misalignment compliance.

EP-JZM diaphragm coupling on industrial turbomachinery installation – zero backlash, lubrication-free, precision-balanced for high-speed service.
Installation and Alignment Best Practice
EP-JZM installation requires precision alignment because the diaphragm pack has limited misalignment compliance compared to elastomeric or gear couplings. Operating beyond the rated misalignment envelope causes premature diaphragm fatigue and pack failure. The standard installation workflow brings final alignment within half the rated envelope, providing safety headroom for foundation settlement and thermal growth.
Step 01 — Pre-Installation Inspection
Inspect diaphragm pack for shipping damage. Verify all hardware including bolts, washers, and locking compound. Confirm dimensional inspection certificate is supplied. Review the manufacturer alignment specification for the supplied configuration.
Step 02 — Hub Mounting and Pre-Alignment
Mount each hub on its respective shaft with the correct rotational orientation. Bring the drive and driven equipment to rough alignment using straight edge and feeler gauges before precision alignment.
Step 03 — Precision Laser Alignment
Use laser alignment equipment to bring angular alignment below half the rated envelope (typically 0.2° for single-pack, 0.5° for spacer-pack). Verify parallel offset is similarly within tight tolerance. Document final alignment values for the equipment maintenance record.
Step 04 — Diaphragm Pack Installation
Install the diaphragm pack between the hub flanges. Insert all bolts and apply the correct stage-torque sequence with calibrated torque wrench. Apply locking compound to bolt threads as specified. Verify the diaphragm pack is centred between the flanges with no preload.
Step 05 — Final Alignment Verification
Re-check alignment after diaphragm pack installation. Final installed alignment must be within rated envelope with margin for thermal growth. For turbomachinery applications, witness inspection by the operating company maintenance engineer may be required at this stage.
Step 06 — Commissioning and First-Service Inspection
Run at progressively increasing speed up to operating speed. Monitor vibration carefully — the precision-balanced diaphragm assembly tolerates very low vibration in service. Inspect diaphragm pack visually at first scheduled maintenance interval; replace at any sign of disc cracking or fatigue.
Request a Diaphragm Coupling Quote
OEM Cross-Reference and Application Engineering
Cross-reference is available for Rexnord Thomas diaphragm couplings, Rexnord Falk Steelflex diaphragm variants, Voith Turbo diaphragm couplings, and other major OEM diaphragm coupling brands. Provide the OEM model code, operating speed, transmitted power, and shaft diameters for direct equivalent confirmation from our Sydney engineering team. For API 671 turbomachinery applications, specify the API 671 documentation requirement at order specification.
Custom diaphragm pack configurations are available for specialised applications including high-temperature service (Hastelloy, Inconel diaphragm packs), corrosive process gas service (special alloy hub materials), and aerospace test rig applications (custom balance specifications). Provide application parameters for engineering review — typical custom production lead times are 4 to 8 weeks depending on configuration complexity.
Why Choose Ever Power Australia
Ever Power Flange Couplings Australia Ltd. supplies the EP-JZM diaphragm coupling range from our Sydney warehouse for Australian turbomachinery, high-speed compressor, and precision drive applications. API 671 documentation, custom high-temperature alloy configurations, and OEM cross-reference work are all standard services from our in-house engineering team. The ISO 9001 quality management system ensures consistent specification across the diaphragm coupling range — material traceability, dimensional inspection, and heat treatment certification available on request.

Ever Power manufacturing facility — ISO 9001 certified, 12,000 m², 108 dedicated coupling machines, 20+ years of production experience.
Every order placed with our Sydney team is backed by full material traceability, dimensional inspection certificates on request, and direct access to the engineers who specified, machined, and packed your coupling. We do not subcontract technical support — when you phone +61 2 9708 3322 during NSW business hours, you reach the people who actually know the product.
Frequently Asked Questions
Quick answers from our Sydney technical team. Contact us for application-specific guidance.
1. How is zero backlash achieved in a diaphragm coupling? +
2. What is the difference between single-pack and spacer-pack configurations? +
3. Can the EP-JZM operate above 300°C? +
4. Is the EP-JZM suitable for API 671 turbomachinery applications? +
5. How quickly can I receive an EP-JZM from your Sydney warehouse? +
Request a Quote — Sydney NSW Stock
Tell us your motor power, shaft diameter, and operating environment. Our New South Wales coupling team confirms availability and pricing within one business day, with same-day dispatch on standard sizes from Condell Park.
Ever Power Flange Couplings Australia Ltd. · 27 Harley Crescent, Condell Park NSW 2200 · [email protected]


