Engine mounts, chassis parts, and machined components for assembly lines.
High-strength fasteners, landing gear parts, and structural assemblies.
Forged housings, armor brackets, and mission-critical structural parts.
Precision housings, actuator frames, and armature linkages for automation systems.
Metal frames, brackets, and assemblies for appliances and home equipment.
Busbar holders, battery pack parts, and lightweight structural enclosures.
Solar mounting parts, wind turbine brackets, and battery enclosures.
Valve bodies, flange blocks, and downhole drilling components.
Large welded frames, PEB structures, and assemblies for industrial equipment.
Durable transformers built for consistent performance, energy efficiency, and stable power regulation.
Frigate’s industrial-grade enclosures provide durable, customizable protection with efficient thermal management for high-performance applications.
High-performance cables and wires engineered for durability and seamless connectivity across applications.
Custom-built wiring harnesses for secure connections and streamlined installations.
Precision-engineered busbars for efficient power distribution and minimal energy loss.
Robust connectors designed for secure locking, reliable conductivity, and long-term performance.
Diverse solutions covering automotive, electrical, mechanical, and industrial needs with precision-built components.
CNC machining delivers micron precision and tight tolerances for complex geometry.
Frigate CNC Machining offers high-precision, custom solutions for complex casting geometries. Multi-axis capabilities ensure tight tolerances and optimal surface finishes.
Sheet metal fabrication uses laser cutting, punching, and bending for precision.
Frigate Sheet Metal Fabrication utilizes advanced laser cutting and press brake technology for custom casting applications. Tight tolerances, superior welds, and high-strength materials ensure structural integrity.
Injection molding produces high-precision parts with consistent quality.
Frigate Injection Molding delivers custom-engineered parts with micron-level precision and structural integrity. Specialized molds maintain tight tolerances for complex geometries and high-stress applications.
Precision casting ensures accurate, high-quality parts.
Forging services improve material strength with precise tolerances.
Frigate Casting Services provides custom casting with tight tolerances and complex geometries. We enhance material properties using advanced metallurgy, ensuring strength and wear resistance. Our precision methods support high-performance aerospace, automotive, and industrial applications.
End-to-end part production from samples to bulk supply.
Ready-to-use assemblies built to exact fit and function.
Heavy-duty fabrication with high-strength materials for demanding applications. Robust welding for maximum structural durability.
Every Robotic Gripper Finger is engineered with selective compliance zones that allow micro-level deflection along minor axes while retaining high stiffness in the primary gripping direction. This controlled compliance is implemented through integrated flexure elements or elastomeric couplers, enabling the Robotic Gripper Finger to conform to unstructured or variable part profiles without losing grip integrity. Such axial compliance helps reduce contact stress, accommodate tolerance stack-ups, and preserve repeatability over millions of cycles.
Dimensional stability is a critical performance parameter for any Robotic Gripper Finger deployed in thermally dynamic or high-cycle environments. Materials such as carbon-fiber composites, anodized 7075 aluminum, and thermally stabilized polymers are used to maintain consistent geometry despite temperature shifts or high actuation frequency. The Robotic Gripper Finger resists thermal creep, minimizes expansion-induced drift, and ensures consistent centerline force application even under accelerated duty cycles.
The Robotic Gripper Finger is configured with interchangeable contact surfaces to suit diverse part materials, textures, and cleanliness requirements. Surface treatments range from high-friction nitrile for oily metallic components to soft, non-marring silicones for optical or medical-grade parts. Each Robotic Gripper Finger is designed with tribological optimization to ensure maximum contact area without inducing surface damage, and contact pad geometries are selected based on real-world testing under variable payload conditions.
Need reliable Machining for your next project? Get in touch with us today, and we’ll help you find exactly what you need!
Handles PCB components, connectors, and microdevices using precision force control and anti-static materials for damage-free manipulation.
Loads and unloads raw stock or finished parts, maintaining positional accuracy under coolant exposure and high spindle proximity.
Grips blister packs, vials, and syringes with sterilizable fingers designed for ISO Class 5 cleanroom environments.
Transfers pouch cells and cylindrical units with equalized pressure to prevent deformation and preserve terminal alignment.
Extracts molded parts directly from tooling using heat-resistant fingers optimized for dimensional stability near mold temperatures.
Positions optical components with sub-millimeter precision using non-abrasive, low-particulate gripping surfaces for imaging system compatibility.
Integration efficiency is critical, and each Robotic Gripper Finger is designed for seamless attachment to parallel, angular, or rotary grippers via ISO 9409-1 interfaces or custom-adaptive mounts. The Robotic Gripper Finger incorporates precision dowel locators and modular backing plates to maintain alignment integrity during high-torque operations. This ensures fast tool changes, reliable positioning, and reduction in system integration downtime across robotic arms from multiple OEMs.
When deployed in harsh manufacturing environments, the Robotic Gripper Finger must resist chemical degradation and particulate abrasion. Sealed-body variants are constructed from PEEK, stainless steel, or chemically inert composites to prevent ingress of coolants, cutting fluids, or sterilizing agents. The Robotic Gripper Finger maintains surface integrity and actuation consistency across IP-rated or cleanroom-classified installations, supporting long-term deployment in CNC cells, food processing, or pharmaceutical automation.
Check all our Frequently Asked Question
Frigate machines all Robotic Gripper Fingers using 5-axis CNC systems with sub-15 micron tolerance controls. This ensures alignment across mating surfaces and consistent finger geometry. Every part undergoes coordinate measurement (CMM) validation before dispatch. This reduces cumulative kinematic errors in robotic systems with complex toolpaths.
Frigate offers contact surfaces made from nitrile rubber, urethane, silicone, and PTFE-based materials. Each surface is selected based on friction behavior and part sensitivity. High-friction materials are used for oily or coated parts, while low-friction options protect delicate finishes. Swappable pad designs enable field-level surface optimization.
Frigate manufactures gripper fingers using PEEK, PPSU, and anodized aluminum with minimal particulate emission. Design geometry avoids dead zones where contaminants could accumulate. Cleanroom-compatible variants comply with ISO Class 5 requirements. Finger joints are sealed to withstand repeated sterilization cycles without degrading mechanical performance.
Yes, Frigate integrates viscoelastic dampers and compliant joints into the finger structure. These features absorb inertial forces during rapid robot movements or payload shifts. Load transitions are managed without transmitting shock to the gripped part. This improves part stability and reduces misalignment under high dynamic conditions.
Frigate uses a modular design system allowing quick reconfiguration of finger length, tip profile, and actuation geometry. Customers can request geometry based on CAD models of their parts. Custom configurations are validated using FEA and motion simulation. This ensures application-specific performance without full redesign or extended lead time.
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818, Preakness lane, Coppell, Texas, USA – 75019
10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.
9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ
FRIGATE is a B2B manufacturing company that facilitates New Product Development, contract manufacturing, parallel manufacturing, and more, leveraging its extensive partner networks.
Need reliable Machining for your next project? Get in touch with us today, and we’ll help you find exactly what you need!
Need reliable wires and cables for your next project? Get in touch with us today, and we’ll help you find exactly what you need!