Informacje o stanowisku

Discover Your Potential. Pursue Your Passion.

Do you want to be part of Link Group?

At LINK, we value our diverse and talented group of employees, and are committed to offering a positive work environment that will challenge you to be your best. We are looking for hardworking individuals that carry the same values that we live by each and every day: Commitment, Accountability, Can-Do Attitude, Courage and Humility.

As a LINK employee, you have access to a package of benefits, including Medical, Dental and Vision Insurance, Life & AD&D insurance, flexible spending accounts, paid holidays and vacation time-off. Our retirement plan includes a 401(k) plan with a company match.

Link is an equal opportunity employer committed to a culturally diverse workforce. All qualified applicants will receive consideration for employment without regard to race, religion, color, age, sex, national origin, sexual orientation, gender identity, disability status, other protected veteran status, and any other protected class under law.

Accessibility for Applicants with Disabilities: If you need a reasonable accommodation for the online application process due to a disability please call 1-734-453-0800. Please provide your contact information and details about the posted position of interest. Only inquiries regarding assistance for those who need an accommodation with the online application process due to a disability will be returned.

Brakes

Type of Test

Test Highlights

Equipment Used

Example Procedures

1. Chemical Testing: Measurement of copper, asbestos and other elements in brake friction materials using ICP-OES / PLM J2975.
2. Materials Testing: Physical properties including quality control for friction, wear, compressive strain, shear strength, corrosion resistance, swell and growth using various machines (Chase Machine, Compressibility Machine, Shear Machine, Corrosion Chamber, Environmental Chamber, Oven) with standards J661, ISO 6310, ISO 6311, ISO 6312, ABNT NBR 9301, ABNT NBR 5505, ABNT NBR 5537, ASTM B117.
3. Frequency Response Component: Frequency Response Laser Vibrometer Test Stand with standards SAE J2933, J3001, J2598, L-4375.
4. Structural Fatigue and Durability: Breaking strength, cyclic fatigue using Servo Hydraulics, Torque Flex with standards J2995, C419, C441, GMW18022.
5. Caliper Fingerprinting: Caliper characteristics such as knockback, rollback, fluid displacement, deflection using Caliper Test Bench / Brake Dynamometer with standard L-4177, PF.90257.
6. Brake Drag and DTV: Residual drag, disc thickness variation, brake feel and vehicle fuel mileage using Off Brake Drag Stand / Brake Dynamometer with standards J2923, GMW14926, GMW14351, PF.90257, L-13080.
7. Performance: Hydraulic, air and electric brakes, friction levels, stopping distance, corrosion, cleanability, brake torque variation, rotor cracking, regulation, stability control, coastdown using Brake Dynamometer, Model 4000 DAS with standards J2784, J2928, IS026867, GMW14985, PF.90210, PF.90244, L-405, FMVSS 121, FMVSS 122, FMVSS 105, FMVSS 135, FMVSS 126, FMVSS 136, ECE R13H, AMS.
8. Wear: Rotor wear, drum wear, lining wear, DTV, durability, city traffic, suburban traffic using Brake Dynamometer, Model 4000 DAS with standards J2707, USCT, L-423, PF.90244, Los Angeles, Detroit, Phoenix, Birmingham, Marquette.
9. NVH: Brake squeal during drag and decel events at different temperatures, pressure and torque levels using NVH Brake Dynamometer with standards J2521, L420, 1430, GMW17427, PF.90244.
10. Brake Emissions: Brake dust particle size, count, concentration and mass using Brake Dynamometer with standards WLTP, CARB, Duty cycle.

Tires

Type of Test

Test Highlights

Equipment Used

Example Procedures

1. Parking Forces: Allows proper sizing of power steering components using Force and Motion LINK Parking Forces.
2. Tire Footprint: Determines the contact patch geometry using Force and Motion Tire Footprint.
3. Tire Modeling: Determine tire inertia which is then used for tire and other models and simulations using Inertia Machine LINK Tire Inertial Properties.
4. On-center parking effort test for tire input using Force and Motion SWP.
5. Determine static stiffness (X, Y, Z, Alpha) for tire input using Static Stiffness Machine SAE Static Stiffness.
6. Determine how the tire envelopes an obstacle using Cleat Machine J2731.
7. Measure the forces and moments generated at a high frequency response spindle when the tire impacts a cleat using Cleat Machine J2730.
8. Braking and Cornering Performance: Determine the straight line braking performance of a tire using Force and Motion J2673.
9. Determine the free rolling cornering properties of a tire using Force and Motion SAE TIME, J1987, SWP.
10. Measure the combined cornering and braking performance of a tire using Force and Motion J2675.

Wheels

Type of Test

Test Highlights

Equipment Used

Example Procedures

1. Chemical: Evaluates filiform corrosion on painted aluminum wheels and painted aluminum trim using ICP-OES ASTM E3061.
2. Wheel Corrosion and Coatings: Evaluates filiform corrosion, tape adhesion, degree of rusting on painted aluminum wheels and painted aluminum trim using Corrosion Chamber with standards SAE J2635, ASTM B368, ISO 9227, ISO 2409, ASTM D3599, ABNT NBR 11003, ASTM D610, ASTM D1654.
3. Wheel Fatigue: Load simulation test of aluminum alloy wheels using Biaxial with standards BMW QV36026, SAE J2562, FORD L-307, GMW14340.
4. Dynamic Cornering Fatigue and Dynamic Radial Fatigue - Steel wheels: Eccentric Mass and Radial with standards ABNT NBR 6750.
5. Rotational fatigue, Radial load fatigue and biaxial load fatigue of steel and aluminum wheels using Eccentric Mass, Radial and Biaxial with standards ABNT NBR 6751.
6. Dynamic Cornering Fatigue and Dynamic Radial Fatigue and Impact resistance of temporary use and normal highway use aluminum wheels using Eccentric Mass, Radial and Drop Test with standards ABNT NBR 6752.
7. Wheel Radial Fatigue: Radial with standard GMW14909.
8. Wheel Impact: Wheel Inboard Rim Flange Vertical Impact Drop Test with standard GMW15321.
9. Wheel radial impact: Drop Test with standard CETP 04.04-L300.
10. Wheel Lateral Impact: Drop Test with standards GMW14910, SAE J175.

Hubs/Bearings

Type of Test

Test Highlights

Equipment Used

Example Procedures

1. Wheel Bearing: Water intrusion and durability when exposed to mud and salt using Bearing Test Stand LINK Hub and Bearing, GMW16306, GMW16310.
2. Passenger car, sport/performance and open bed vehicle wheel bearing spalling using Bearing Test Stand with standards GMW16311, GMW16308, GMW16309.
3. Brinelling resistance validates long-term reliability/durability using Bearing Test Stand with standard GMW16305.
4. Rotary fatigue life using Rotary Fatigue Machine with standard GMW16325.
5. Wheel Hub Rotary bending fatigue life characteristics using Rotary Fatigue Machine with standard GMW14249.
6. Hub/Bearing: Evaluate hub and bearing performance, durability, seals and NVH when exposed to extreme environmental effects such as temperature and mud/salt solution using Bearing Test Stand/Rotary Fatigue with standards TIP-000037A, LINK Hub and Bearing, SAE J1095, LINK Impact.
7. Hub Fatigue: Hub fatigue using biaxial loading with Biaxial Test Stand and standard SAE J2562.

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