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How To: Change the Engine Air Filter in a 2012 to 2017 Toyota Camry
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By Mia
Changing your brake pads is a manageable task if you have the right tools and follow the steps carefully to help you replace your brake pads: Tips
Always replace brake pads in pairs (both front or both rear) to ensure even braking. Dispose of the old brake pads and any other materials properly, following local regulations. Consult your vehicle’s manual for specific instructions and torque specifications. Welcome to learn more about brake pad types from here:
link hidden, please login to view 1. Tools and Materials Needed
Jack and Jack stands Lug wrench C-clamp or brake caliper tool Wrench or ratchet and socket set Brake pads Brake fluid Bungee cord or string Gloves and safety glasses Wheel chocks 2. Prepare the Vehicle
Park your vehicle on a flat surface and engage the parking brake. Place wheel chocks behind the rear wheels to prevent the car from rolling. 3. Raise the Vehicle
Use a jack to lift the car off the ground, and then place it securely on jack stands. 4. Remove the Wheel
Finish removing the lug nuts and take the wheel off to expose the brake assembly. 5. Remove the Brake Caliper
Locate the bolts on the back of the brake caliper and remove them using a wrench or ratchet. Carefully lift the caliper off the brake rotor. Use a bungee cord or string to hang the caliper from the suspension to avoid putting stress on the brake hose. 6. Remove the Old Brake Pads
Slide the old brake pads out of the caliper bracket. Take note of how they are positioned for proper installation of the new pads. 7. Inspect the Brake Rotor
Check the brake rotor for any signs of damage or excessive wear. If the rotor is in poor condition, it may need to be replaced or resurfaced. 8. Compress the Brake Caliper Piston
Use a C-clamp or brake caliper tool to slowly compress the caliper piston back into the caliper. This will make room for the new brake pads. Open the brake fluid reservoir cap to make this process easier. 9. Install the New Brake Pads
Place the new brake pads into the caliper bracket in the same position as the old ones. 10 Reattach the Brake Caliper
Carefully position the brake caliper over the new brake pads and rotor. Reinsert and tighten the caliper bolts securely. 11. Reinstall the Wheel
Put the wheel back on the hub and hand-tighten the lug nuts. 12. Lower the Vehicle
Carefully remove the jack stands and lower the vehicle back to the ground using the jack. 13. Tighten the Lug Nuts
Use the lug wrench to fully tighten the lug nuts in a star pattern to ensure even pressure. 14. Check the Brake Fluid
Check the brake fluid level in the reservoir and add fluid if necessary. Replace the reservoir cap. 15. Test the Brakes
Before driving, pump the brake pedal a few times to ensure the brakes are properly engaged and check for any leaks or issues. -
By Mighty Auto Parts
The post
link hidden, please login to view appeared first on link hidden, please login to view. Nothing is more frustrating for the vehicle owner than a puddle of oil on their carport fl oor or the stench of oil on a hot engine or exhaust system following a lube service. It is equally frustrating for the lube shop asthey must correct the problem, losing billable labor time. We have seen customers […]
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By Mighty Auto Parts
The post
link hidden, please login to view appeared first on link hidden, please login to view. When diagnosing engine performance complaints such as misfire symptoms, be advised that several systems and components can contribute to those symptoms. When considering single or multiple misfire codes, some checks may seem farfetched but trust me if not all are considered the symptoms can elude the most experienced technician, resulting in a misdiagnosis. When this […]
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By Counterman
Theory can only take you so far when formulating engine oil. Complex modeling is an important step, but it can’t duplicate the magic that happens inside the cylinder. Operating conditions, duty cycles, driver behavior—it all impacts how an engine ages. As it does, deposits form within the engine. The carbonaceous compounds that form on various engine components, including pistons, valve trains, and timing chain covers are a natural occurrence; a consequence of aging that result from the breakdown of oil components at high temperatures, particularly during the combustion process. The highest temperatures occur on the metal surfaces within the engine, where these deposits tend to adhere.
“There are some deposits that are temporary that you can wipe off with your finger, and there are others that can get very thick,” explained Dr. Michael Warholic, global technology director, Valvoline Global Operations. “The bad thing about deposits—and actually there are several bad things—are that, first of all, they insulate and you can’t get the heat out.
“They also cause friction.”
Friction is exceptionally bad, especially if you’re formulating oil. Thick deposits can clog oil passages, restricting the flow of oil to critical engine parts. This leads to inadequate lubrication, exacerbating wear and potentially causing engine failure. Traditionally the role of engine oil has been to slow down engine deposit development, but in concocting its latest engine-protecting blend, the Valvoline team stumbled upon something … surprising.
“We were trying to basically minimize deposits, engine wear, friction and heat, and oil formulation is a balance, so you have to pick and choose what you want it to do,” Warholic explained. “What we didn’t know was before the testing that it would remove and reverse the process–that is something you can’t predict by modeling. Restore and Protect removed engine deposits.
“I had never seen anything like it before, and I have eight years at Valvoline and 16 years at a company that makes the additives used in oil formulation.”
Valvoline’s Restore and Protect is a fully synthetic motor oil that aims at both older, high-mileage vehicles (restore) and new vehicles (protect). While Warholic was tight-lipped about the specific blend of additives within the oil, Valvoline has noted two proprietary technologies–Active Clean, which removes deposits and Liqui-Shield, which prevents deposit formation.
It’s not just marketing—at a recent event, Valvoline put Restore and Protect-cleaned pistons on display. Take a look:
Valvoline validates its oils through industry standard tests such as the GF-6 SP specification, which uses a Chrysler Pentastar engine to measure deposit formation. These tests provide a benchmark for oil performance, ensuring that the oil meets or exceeds industry requirements.
“Exceeds” is the key word. Warholic was quick to point out that these types of tests are merely the baseline within the oil market, not the high bar that oil manufacturers should seek to leap over.
“We want to exceed the API specifications and excel in all categories. Restore and Protect is already GF-7 capable, which is great,” he said.
Real-world testing is crucial. For instance, a Ford Mustang was subjected to extensive testing with Restore and Protect, showing significant reductions in wear and deposit formation. The testing extended to various engine components, including the timing chain cover, oil pan, and valve train, demonstrating the comprehensive benefits of the oil. The team also ran Restore and Protect in a Ford Explorer with more than 500,000. “And we also did a chassis dynamometer test where we put a vehicle on rollers basically and ran it 300,000 miles,” Warholic said. “Restore and Protect actually cleaned up the entire engine.”
For automotive aftermarket professionals, understanding the use of high-performance oils can lead to better engine health, improved engine operating efficiency, reduced maintenance costs and happy customers.
“We’re trying to maximize engine life,” Warholic said. “Vehicles are getting older. The vehicle life on the road is getting older. Vehicles may change owners and engines are going to be running longer. For us, it’s about maximizing engine performance so that you don’t lose fuel economy, you don’t lose efficiency, and you don’t break down on the highway.”
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