The gear geometry, material, heat treatment, accuracy class, and annual production volume of an automotive EV reduction drive are entirely different from those of a wind turbine ring gear or an aerospace actuation system component. We start every machine recommendation from the application — not from a standard product list. Each industry solution page documents the machine categories, process parameters, and tooling strategies that we apply in that specific sector, supported by real customer case results.
Explore the industry categories below and visit our full product catalogue to see the individual machine specifications that underpin each solution. If your application does not fit a standard category, contact our application engineers directly with your gear drawing and production requirements.
DIN 4 to DIN 7 · Profile & Generating
Module 0.5 to 25 · Electronic Gearbox
VMC / HMC / Turning-Milling · 3 to 5 Axis
DIN 3968 AAA · HSS & Carbide · Custom
Each industry page covers the recommended machine category mix, key process parameters, and the accuracy and productivity benchmarks we target for that application. Select a sector to explore the full configuration guidance.
Automotive transmission gears — spur and helical gears for manual gearboxes, torque converter housings, differential gear sets, and electric vehicle reduction drives — demand high-volume production at DIN 5 to DIN 6 accuracy with consistent cycle times. We configure CNC hobbing machines for the soft cutting stage and CNC gear grinding machines for hardened gear finishing, with CBN wheel specification and in-process gauging delivering the per-part accuracy and cost-per-part economics required for Tier-1 automotive supply.
Aerospace structural components — titanium landing gear members, actuation system housings, gearbox casings, and precision gear sets for flight control systems — require 5-axis machining capability, rigorous documentation, and verified dimensional accuracy on every part. We configure vertical machining centers and turning-milling composite centers with appropriate control systems, fixturing strategies, and toolpath approaches for titanium, Inconel, and hardened steel aerospace materials.
Wind turbine main gearboxes for 2 MW to 5 MW turbines require large-module (Module 12 to Module 25) planet gears, ring gears, and sun gears at DIN 4 to DIN 5 accuracy with consistent lead accuracy across full face widths. We configure large-format CNC hobbing machines with hydrostatic rotary tables and active thermal compensation for the soft-cutting stage, and large-diameter gear grinding machines for final hardened finishing. The extended cutting cycles and large workpiece dimensions of wind gear production make machine rigidity and thermal stability critical selection criteria.
Excavator swing gears, loader drive pinions, crane slewing rings, and mining equipment transmission components are characterised by large diameter, coarse module, heavy material removal, and high torque operating loads. We configure horizontal machining centers and CNC lathes for the prismatic and rotational component machining stage, alongside CNC hobbing machines for gear cutting. Machine selection emphasises high table load capacity, box guideway construction, and high-torque spindles suited to the heavy cutting conditions of construction steel alloys.
Orthopedic implants, surgical instrument components, medical-grade gear mechanisms, and precision actuators for robotic surgical systems require ultra-precise machining on biocompatible materials — titanium alloy, cobalt-chrome, PEEK, and stainless steel — with complete dimensional traceability. We configure high-rigidity VMCs and turning-milling composite centers with appropriate spindle speeds, toolpath strategies, and quality documentation workflows for medical component production, supporting the inspection and record-keeping requirements of regulated medical manufacturing environments.
Mud pump drive shafts, drilling riser components, and high-lead ACME and trapezoidal threaded drive screws for oil and gas drilling equipment demand high-lead thread profiles, large diameter capacities, and consistent surface finish on hardened alloy steel. We configure whirlwind milling machines for high-efficiency external thread generation — producing full thread profiles in a single pass at cycle times four to six times faster than single-point turning — alongside large-capacity CNC lathes for the rotational component machining stages.
Every machine recommendation we make follows the same four-stage process — starting from your specific gear geometry and production requirements, not from a standard product catalogue.
We review your gear drawings, module range, material, heat treatment condition, required DIN accuracy class, and annual production volume before any machine is recommended.
We specify the machine type, axis configuration, spindle specification, grinding wheel or hob type, and control system option that best matches your application requirements and production targets.
Where required, we provide a process recommendation covering cutting parameters, wheel dressing cycles, fixturing approach, and expected cycle time — before you commit to the purchase.
Machines are delivered with full CMM accuracy documentation, electrical and hydraulic schematics, and an agreed after-sales support arrangement covering spare parts and remote diagnostics.
Which Ever-power machine categories apply to each industry sector. Individual model specifications are available on each solution page and in our product catalogue.
Share your gear drawings, material specification, required accuracy class, and production volume with our application engineers. We will identify the right machine configuration and provide a process recommendation with no obligation.