Army Veteran Patrick Smith Joins KYB Aftermarket Team
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By Counterman
Automotive Parts Associates (APA) is pleased to announce that Midwest Parts Hub, a division of Kelley Automotive Group based in Fort Wayne, Indiana, has joined the group as a shareholder.
Founded in 1952 by Jim Kelley, Kelley Automotive Group is a family-owned dealership group representing multiple vehicle brands and serving customers throughout northeastern Indiana and beyond. Midwest Parts Hub opened in 2025 and services customers throughout the surrounding region through its extensive inventory of genuine General Motors OEM, ACDelco and aftermarket parts, along with daily delivery routes and advanced technology systems. The company emphasizes inventory availability, experienced staff, technology integration and reliable service as key drivers of its continued success.
“In today’s market, if you want to stay competitive, you need to be part of a program group,” said Mike Smith, parts director for Kelley Automotive Group. “Operating completely on your own is no longer effective. After evaluating our options, we knew
link hidden, please login to view was the right choice.” “We are excited to welcome Midwest Parts Hub to APA,” said Steve Tucker, president of APA/TruStar. “Their long-standing commitment to service, innovation, and operational excellence makes them a tremendous addition to our shareholder family.”
For more information about Kelley Automotive Group, visit
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By GreenGears Auto Limited
Published by GreenGears Auto | 8 min read | Subframe Buying Guide
When a subframe or crossmember fails, the temptation is to save money with an aftermarket replacement. The price difference looks compelling — an aftermarket subframe for a Honda Accord might cost $120 vs. $280 for a used OEM unit. But for structural chassis components, that price difference carries consequences that don't show up until 6,000 miles later. This guide explains exactly what those consequences are, and why used OEM is almost always the right call for subframes and engine cradles. What Is a Subframe and Why Does It Matter So Much?
The subframe — also called an engine cradle, K-frame, or suspension crossmember — is the structural foundation of your vehicle's front or rear suspension. Every suspension mounting point, steering rack, and engine/transmission mount connects to it. When you steer, brake, or accelerate, the forces travel through the tyres and wheels into the suspension and into the subframe. It is not a peripheral component — it is load-bearing structure.
This matters because subframe quality directly affects three things most drivers care deeply about: alignment stability, handling feel, and long-term reliability. A subframe that doesn't hold its geometry under load — or that holds it differently from the OEM unit — produces alignment drift, steering wander, and tyre wear that no alignment shop can permanently correct, because the underlying structure is wrong.
The Aftermarket Subframe Problem
Aftermarket subframes exist primarily for the collision repair market, where insurance companies pressure shops to use lower-cost alternatives to OEM. They are manufactured to be "close enough" — the mounting points are approximately in the right locations, the bolt patterns are approximately correct, and the overall shape is approximately right. In practice, this creates several specific problems.
1. Dimensional Tolerance Differences
OEM subframes are manufactured to tolerances measured in tenths of a millimetre. Suspension geometry — caster, camber, and toe — depends on mounting point locations being accurate to within fractions of a degree. Aftermarket subframes are typically manufactured to tolerances of 1–3mm, which sounds small but translates to measurable geometry deviation at the wheel. The result is a vehicle that drifts, wears tyres unevenly, and requires constant alignment correction.
2. Steel Grade and Wall Thickness
OEM subframes use high-strength steel alloys — often dual-phase or TRIP steels — with precisely engineered wall thicknesses optimised for both strength and weight. Aftermarket subframes typically use lower-grade mild steel at higher wall thickness to compensate, resulting in a heavier unit that doesn't deform in the same way during a collision. In modern vehicles designed with specific crumple zones and energy absorption paths, this matters for safety.
3. Corrosion Protection
Toyota applies its electrodeposition coating to subframes before assembly — the same coating used on the body. Honda uses a similar process. These factory corrosion protections are difficult or impossible to replicate in aftermarket manufacturing. The result is that aftermarket subframes frequently begin surface corrosion within 2–3 years in northern climates, while OEM units from comparable donor vehicles may show minimal surface oxidation after 10+ years.
4. Mounting Bracket and Weld Quality
Every bracket on an OEM subframe — engine mount brackets, steering rack mounts, sway bar tabs — is welded under controlled factory conditions with consistent penetration and quality verification. Aftermarket subframe brackets are frequently thinner, attached with fewer welds, and at slightly different positions, causing looseness, vibration, and eventual cracking at the weld points under road loads.
OEM vs. Aftermarket vs. Used OEM — The Real Comparison
Factor New OEM Aftermarket Used OEM (GreenGears) Dimensional accuracy ✅ Factory spec ⚠️ Approximate ✅ Factory spec Steel grade ✅ OEM alloy ⚠️ Lower grade ✅ OEM alloy Corrosion protection ✅ Factory coating ❌ Basic primer ✅ Original coating Weld quality ✅ Factory certified ⚠️ Variable ✅ Original factory welds Alignment result ✅ Holds spec ⚠️ Often drifts ✅ Holds spec Typical cost $700–$2,400+ $80–$280 $160–$680 Warranty (GreenGears) Dealer warranty Variable/limited 90 Days The cost gap between aftermarket and used OEM is real — but it's narrower than it appears once you factor in alignment costs ($80–$150 every time the aftermarket unit shifts), repeat repairs when the bracket welds crack, and the labour cost of doing the job twice.
Real-World Consequences of Aftermarket Subframes
"My alignment keeps going out"
This is the most common complaint after an aftermarket subframe installation. The owner gets an alignment after the repair, drives for 3,000 miles, and the steering starts pulling again. They go back for another alignment — same result. The problem isn't the alignment; it's that the aftermarket subframe's mounting point tolerances allow the suspension geometry to shift under load in ways that an OEM unit doesn't. The only fix is replacing the aftermarket subframe with an OEM unit.
Vibration through the steering wheel
Aftermarket subframe mounting bushings are frequently a different durometer (hardness) than OEM, and bracket attachment points that are 1–2mm off cause the steering rack to transmit road vibration differently. The result is a steering feel that's subtly but noticeably different from stock — often described as "rough" or "numb" where the original was precise.
Premature tyre wear
Toe deviation of even 0.2 degrees — well within the tolerance range of a typical aftermarket subframe — causes measurable inner or outer tyre wear within 15,000 miles. On a vehicle where the alignment appears correct but the subframe geometry is slightly off, the tyres wear in a pattern that no amount of adjustment can prevent because the root cause isn't the alignment — it's the structure the alignment is measured against.
When Aftermarket Is Acceptable — and When It Isn't
To be fair: not all aftermarket subframes are equally poor, and not all applications carry equal risk.
Lower risk: older vehicles, off-road applications, track builds
For a vehicle being rebuilt for off-road use, a track car that will run non-OEM alignment settings anyway, or an older vehicle where OEM subframes are genuinely unavailable, aftermarket can be a practical choice. The geometry standards that matter for a daily-driven Accord matter less for a Jeep with a lift kit and custom suspension.
Higher risk: daily drivers, vehicles with ADAS, AWD platforms
For a daily-driven vehicle — particularly one with lane-keeping assist, automatic emergency braking, or other ADAS systems that depend on precise suspension geometry — aftermarket subframes introduce meaningful risk. ADAS calibration assumes OEM geometry. An aftermarket subframe that's 1.5mm off in a suspension mounting point can cause persistent ADAS warnings that can't be resolved through calibration alone. AWD vehicles are even more sensitive — subframe geometry affects driveshaft angle and AWD balance on platforms like the Honda CR-V and Toyota RAV4.
⚠️ Aftermarket Subframes and Insurance Repairs If your vehicle is repaired after a collision through insurance and an aftermarket subframe is used without your explicit consent, you may have grounds to request OEM replacement. Many states have laws requiring insurers to disclose when non-OEM parts are used. A used OEM subframe costs only moderately more than a typical aftermarket unit — it's worth requesting it specifically. Why Used OEM Works for Subframes Specifically
Subframes are an ideal used OEM purchase for a specific reason: they are among the most durable components on any vehicle. A subframe from a 55,000-mile accident-damaged Toyota Camry has experienced exactly 55,000 miles of normal road load — the same load it was designed to handle for 150,000+ miles. There is no internal wear, no fluid degradation, no moving parts. It is a piece of formed and welded steel that is either dimensionally intact or it isn't.
At GreenGears Auto, every subframe is inspected for:
Bending or twisting from impact — a bent subframe from collision damage is rejected regardless of mileage Crack propagation at weld points — stress cracks near mounting brackets disqualify a unit Mounting point thread integrity — stripped or cross-threaded bolt holes are a disqualifier Corrosion depth — surface oxidation is noted; through-rust is a disqualifier Bracket completeness — missing or damaged auxiliary brackets are documented before listing ✅ The Used OEM Subframe Advantage in Practice A used OEM Honda Accord front subframe from GreenGears Auto costs $180–$360. A new OEM dealer unit costs $700–$1,400. An aftermarket unit costs $80–$160. The used OEM unit is the factory unit — same steel, same welds, same geometry — at the same price point as a quality aftermarket alternative. The choice becomes straightforward. Most Popular Used OEM Subframes in Our Inventory
Our
link hidden, please login to view covers front and rear subframes and engine cradles for domestic and import vehicles. Top platforms include Honda Accord and CR-V, Toyota Camry and RAV4, Nissan Armada, Ford Fusion and Escape, Chevrolet Equinox, and VW MQB platform vehicles. All carry a 90-day warranty from confirmed delivery. If your specific vehicle isn't listed,
link hidden, please login to view — we can search our salvage yard network for your application and confirm availability before anything ships. Shop Used OEM Subframes — Factory Fit, 90-Day Warranty
Free US shipping on every order. VIN fitment confirmed before dispatch.
Use code below for an extra 10% off:
GGA10 📧 [email protected] | 📞 +1 (315) 305-4300
GreenGears Auto — Drive Green. Drive Smart.
🛡️ 90-Day Warranty · 🚚 Free US Shipping · ↩️ 15-Day Returns
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By liangyanyang
When maintaining heavy-duty trucks and diesel engines, choosing the right filter is crucial for engine performance and operating costs. Many fleet owners and dealers typically compare original equipment manufacturer (OEM) truck filters with aftermarket truck filters before making a purchase.
So, what's the difference between original equipment manufacturer (OEM) filters and aftermarket filters?
What is an original equipment truck filter?
Original equipment (OEM) filters are manufactured to the specifications of the original vehicle or engine manufacturer. These filters are designed to meet the requirements of the original equipment system in terms of filtration efficiency, airflow, and durability.
Original equipment manufacturer (OEM) filters are typically used for:
Heavy trucks Commercial vehicles construction machinery diesel engine The advantages of original equipment manufacturer (OEM) filters include:
Stable quality Reliable compatibility Stable performance Longer engine protection time What are aftermarket truck filters?
Aftermarket filters are replacement products manufactured by independent filter manufacturers. High-quality aftermarket truck filters offer similar performance to original equipment manufacturer (OEM) products at a more competitive price.
Professional aftermarket filter manufacturers typically offer:
Original replacement filter Custom Brands Provide bulk supply to distributors Flexible production solutions Original equipment manufacturer (OEM) filters vs. aftermarket filters: key differences
feature Original filter Aftermarket Filters compatibility Fully compliant with original factory standards Depends on the manufacturer price higher More cost-effective Brand promotion Original brand Custom/OEM branding services are available. Supply flexibility Limited Flexible Bulk Production custom made low High How to choose a suitable truck filter supplier
Whether choosing original equipment manufacturer (OEM) filters or aftermarket filters, the quality of the supplier is the most important factor.
A reliable truck filter manufacturer should provide:
Stable filtration performance High-quality materials OEM Replacement Support Strict quality control Rapid delivery capability Why do many dealers choose aftermarket filters?
Today, many global dealers prefer aftermarket truck filters because they offer the following advantages:
Higher profit margins Original factory quality and performance Flexible Packaging Solutions Reduce procurement costs High-quality aftermarket filters can effectively protect diesel engines while reducing maintenance costs.
in conclusion
Original equipment (OEM) and aftermarket truck filters each have their advantages. The key is to choose a trustworthy filter manufacturer that ensures reliable quality and long-term supply support.
If you are looking for OEM replacement filters, custom filter solutions, or bulk truck filter supplies, partnering with an experienced manufacturer can help your business grow faster.
website:www.ixinfilter.com
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By Counterman
The Schaeffler division is making two additional Vitesco repair solutions available to the independent aftermarket: a Voltage Stabilization System (VSS) for micro hybrid vehicles from PSA and Toyota, and a 48V DC/DC converter for mild hybrid vehicles from Ford.
link hidden, please login to view said the VSS, available immediately, prevents voltage drops that can occur during automatic start-stop operation in micro-hybrid vehicles. The system consists of an Energy Storage System (ESS) with high-performance capacitors and a Power Electronics Unit (PEU). During the engine start process, the capacitors release energy stored while driving within a very short time, compensating for the high-power demand. Starting the engine via a starter-generator requires a comparatively high amount of energy.
If this energy is drawn solely from the conventional 12-volt electrical system, the voltage can briefly drop by several volts, causing visible flickering of the vehicle’s lighting and electronic displays. Schaeffler said that by stabilizing the voltage supply, the capacitors ensure smooth engine restarting and contribute to longer battery life, improved driving comfort and compliance with current emissions standards.
Schaeffler Vitesco Voltage Stabilization System power electronics unit Schaeffler Vitesco 48V DC/DC Converter: Efficient Energy Management
The Schaeffler Vitesco 48V DC/DC converter, available in May, is used in mild-hybrid vehicles equipped with a 48V starter generator and an additional battery to enable more efficient power delivery and boost performance during acceleration. The converter links the vehicle’s 48-volt electrical system with the 12-volt onboard electronics, ensuring stable voltage levels and preventing energy losses.
The converter is a component of energy management in mild-hybrid vehicles and for achieving type-approval compliant CO2 emissions. Its bidirectional design allows 12-volt components to be supplied from the 48-volt network while charging the starter battery. Conversely, in the event of a temporary failure, the 48-volt system can also draw energy from the 12-volt network.
Schaeffler Vitesco 48V DC/DC converter Significant Potential for the Aftermarket
Until now, both the Schaeffler Vitesco Voltage Stabilization System and the Schaeffler Vitesco 48V DC/DC converter were available exclusively as original equipment components. This is a further expansion of the portfolio to include OE-quality Vitesco products.
These technologies have been installed in large numbers of vehicles worldwide for many years. The Schaeffler Vitesco Voltage Stabilization System enables a 1:1 replacement in approximately 2.7 million vehicles worldwide from PSA and Toyota.
The
link hidden, please login to view Vitesco DC/DC converter is used in around 1 million Ford vehicles globally, including Fiesta, Focus and Puma models equipped with the 1.0-liter EcoBoost mHEV engine. “By integrating Vitesco products, we are expanding our portfolio for electrified vehicles,” said Stephan Niese, director, global product management, E-Mobility, at Schaeffler Vehicle Lifetime Solutions. “In this way, we help the aftermarket unlock the potential of e‑mobility and enable workshops to offer their customers professional, future‑ready and profitable vehicle service.”
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By NAPA
The Interstate Batteries High Limit Racing season returned to competition Saturday, April 18th, at Lucas Oil Speedway in Wheatland, MO. Kasey Kahne Racing’s
link hidden, please login to view No. 9 team arrived at the reconfigured 3/8‑mile “Diamond of Dirt Tracks” eager to get the car back in motion after a three‑week regroup, with progress to prove.
Teams of each of the 43 cars taking part in the ninth race of the season set sights on the win and the The Diamond Classic’s $12,000 payday.
No. 9 driver, Daison Pursley, showed early speed, posting a 13.275-second lap in Hot Laps, fourth‑quickest in practic, and running a 13.628-second qualifying lap for fifth in his group.
Pursley started P2 in the first Heat Race of the night and jumped to the lead during the first lap, coming out of turn 4 and down the front stretch to the flagstand. Pursley kept the lead throughout the 8-lap race. The win marked Pursley’s first Heat Race victory of the 2026 season and punched his ticket to the Dash. In the Dash, the NAPA Auto Parts No. 9 slipped from third to fourth, lining the team up to start outside the second row of the A-Main.
Fireworks and pyrotechnics signaled the start of the 30-lap Diamond Classic. Pursley raced into third position for the first six laps. After an early caution, Pursley chose his position back by way of the choose cone and was challenged into turn one by Sye Lynch (No. 42), ultimately being shuffled into fourth by the No. 42 and No. 13 of Tanner Holmes. The track’s renovation brought the track banking all the way to the wall, producing even more high‑banked, door‑to‑door racing. Pursley kept heavy pressure on P3 of Holmes, finishing less than a car length behind the No. 13 and just outside of the podium. Kerry Maddsen (No.55) started on the pole and dominated, leading every lap to claim his first High Limit Racing victory.
Pursley’s fourth-place finish left crew chief Jarrett Martin encouraged; he noted the team learned every time they were on the track and made the right adjustments from the Dash to the Diamond Classic.
Weather threatened nearby Lakeside Speedway in Kansas on Friday, forcing the cancellation of that program due to tornado warnings. That event will not be made up at this time. The next High Limit Racing event is Tuesday, April 21st, at Eagle Raceway in Eagle, Nebraska, and will be broadcast nationally on FS1.
Start / Finish: 4 / 4
Points Standing / Total: 8th / 456 pts. (-137)
Next Race: Tuesday, April 21, Eagle Raceway, Eagle, NE
How to Watch or Listen: 9:00 p.m. ET on FS1
NAPA:
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