Launch event of the new 2026 Commander
As part of strengthening strategic partnerships among leading companies in the automotive sector, Saleh Cars Group, in collaboration with Petromin, hosted a distinguished official event to unveil the all-new Commander 2026 model.
The ceremony was attended by:
- Terence Patrick Perrin – Chief Executive Officer
- Rami Hankir – Senior Executive Director
- Elias Abu Hasira – Executive Director of Wholesale Sales
- Rohit Verma – Executive Director of Marketing
Alongside a number of automotive industry enthusiasts.
The event took place at Saleh Cars Group’s headquarters in Riyadh – Al Thumama Branch, at 3:30 PM on Tuesday, October 14, 2025.
The launch showcased the vehicle’s latest features and advanced technologies, reflecting both companies’ vision to deliver cutting-edge models to the Saudi market.
The types of brake fluid, their importance and uses of each type
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What is Brake Fluid?
Brake fluid is a hydraulic liquid used in braking systems to transfer the force generated by pressing the brake pedal to the calipers, which then clamp onto the brake discs to stop the vehicle. This fluid is characterized by unique properties, most notably its high resistance to heat without boiling, and its incompressibility, which ensures precise and effective brake response under various driving conditions.
Why is Brake Fluid Important?
Brake fluid does more than just transmit hydraulic pressure. It performs several critical functions that help maintain system efficiency and driving safety, including:
1- Protecting brake system components from corrosion and rust
2- Absorbing heat generated by friction, helping preserve performance
3- Resisting boiling at high temperatures, preventing brake fade in extreme conditions
What’s the Difference Between DOT 3, DOT 4, and DOT 5.1 Brake Fluids?
Brake fluid types differ in their heat tolerance, moisture absorption rates, and compatibility with various braking systems. Key differences include:
DOT 3
- - Dry boiling point: approximately 205°C
- - Wet boiling point: around 140°C
- - Moderate moisture absorption
- - Suitable for regular driving in mild conditions
- - Compatible with DOT 4 and DOT 5.1
- - Loses about 25% of its boiling point when absorbing 3% moisture
DOT 4
- - Dry boiling point: approximately 230°C
- - Wet boiling point: around 155°C
- - Absorbs moisture faster than DOT 3
- - Preferred for mid-performance vehicles or hotter climates
- - Compatible with DOT 3 and DOT 5.1
- - Loses about 50% of its boiling point when absorbing 2% moisture
DOT 5.1
- - Highest boiling points: dry at around 260°C, wet at 180°C
- - Highest moisture absorption rate
- - Ideal for high-performance or heavy-use vehicles
- - Compatible with DOT 3 and DOT 4
How to Choose the Right Brake Fluid
Selecting the appropriate brake fluid requires considering several factors to ensure compatibility and optimal performance:
- Vehicle specifications: Always refer to the owner's manual for the manufacturer’s recommended type
- Driving conditions: For high-temperature environments or heavy loads, DOT 4 or DOT 5.1 is preferable
- System compatibility: DOT 5 is not compatible with DOT 3 or DOT 4
- Brand reliability: Choose a trusted brand for long-term performance and stability
How to Easily Check Brake Fluid Condition
Over time, brake fluid deteriorates due to moisture absorption and contamination, which affects braking performance. Regular checks are essential. Practical methods include:
Moisture Measurement
- Tool: Small electronic device with a probe
- Method: Dip the probe into the reservoir after warming the fluid slightly by driving
- Result: If moisture exceeds 3%, replace the fluid immediately
Electrical Conductivity Test
- Concept: Pure fluid doesn’t conduct electricity, but contaminated fluid does
- Method: Some devices measure conductivity to assess fluid quality
- Result: Low resistance indicates contamination and the need for replacement
Chemical Test Strip
- Tool: A strip that changes color based on fluid condition
- Steps:
- - Dip the strip into the fluid for a few seconds
- - Wait one minute and compare the color to the reference chart
- - Result: Significant color change indicates moisture or impurities; fluid should be replaced
Copper Content Measurement
- Background: Brake line corrosion releases copper into the fluid
- Method: Special test strips detect copper levels
- Result: If copper exceeds 200 ppm, it signals early corrosion and fluid replacement is necessary
Can You Mix Different Brake Fluid Types?
Mixing is not recommended, especially if the chemical compositions are incompatible.
When Should Brake Fluid Be Replaced?
It’s advisable to replace it every two to three years, or every 60,000 kilometers.
What Happens If Brake Fluid Runs Low?
Low brake fluid can lead to:
- - Reduced braking response
- - Warning light activation on the dashboard
- - Air entering the system, increasing the risk of brake failure
The Differential in Cars What It Is, How It Works, and Why It Matters
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The differential is a hidden yet vital component that plays a key role in vehicle performance and stability. But do you really know how it works and what types exist?
What Is a Car Differential
- The differential is one of the core mechanical components in a vehicle’s drivetrain system. It plays a crucial role in converting engine power into balanced wheel movement. Its importance lies in its ability to distribute torque evenly, allowing the wheels to rotate at different speeds during turns. This ensures smooth maneuverability and enhances vehicle stability.
How Does the Differential Work
- The differential operates through a small gear known as the pinion, which connects to the driveshaft that transmits power from the engine. This gear meshes with a larger gear called the crown wheel, which then distributes motion to the axle shafts connected to the wheels.
- This mechanism enables the wheels to rotate at varying speeds—an essential function for preventing excessive friction or skidding during cornering, thereby improving vehicle control and stability.
What Are the Components of a Differential
A differential consists of several interconnected parts that work in harmony to deliver optimal performance:
- Gearbox: Transfers torque from the engine to the rest of the system and contains a set of gears that ensure balanced power distribution.
- Internal Gears: Responsible for determining wheel speed and directing torque based on driving conditions.
- Axle Shaft: Connects the wheels to the differential and ensures smooth and stable motion during driving.
Why Is the Differential Important
The differential plays a fundamental role in enhancing the driving experience. Its significance can be summarized as follows:
- Allows the vehicle to turn smoothly without resistance or vibration.
- Improves safety by evenly distributing power between the wheels, reducing the risk of losing control.
- Facilitates driving over rough terrain by balancing torque between front and rear wheels, especially in four-wheel-drive vehicles.
What Are the Types of Differentials
Differentials vary depending on usage and driving conditions:
- Open Differential: The traditional type that splits torque between wheels on the same axle. Commonly used in vehicles designed for paved roads.
- Locking Differential: Distributes power equally between wheels, ideal for off-road vehicles requiring high traction.
- Limited-Slip Differential: Reduces wheel spin when traction is lost and offers better control on slippery surfaces.
- Torque-Vectoring Differential: Uses electronic sensors and control systems to precisely distribute torque based on road conditions. Found in high-performance and sports cars.
What Are the Symptoms of a Faulty Differential
When the differential begins to fail, several warning signs may appear:
- Unusual noises from the wheels, such as clicking or grinding, which may indicate gear wear or low oil levels.
- Vehicle vibrations during acceleration, often caused by internal damage or improper torque distribution.
- Difficulty steering, especially during turns or on uneven roads, suggesting reduced system effectiveness.
What Causes Differential Failure
Several factors can lead to differential damage, including:
- Low Differential Oil: Causes excessive friction and internal wear.
- Contaminated Oil: Reduces cooling and lubrication efficiency, accelerating system deterioration.
- Oil Leaks: Result from damaged seals or overheating, leading to insufficient lubrication.
- Heavy or Aggressive Driving: Frequent off-road use or high-speed driving puts extra strain on the system, increasing the risk of failure.
What Is Differential Oil
Differential oil is essential for maintaining system efficiency. It reduces friction and cools internal components. Using the correct type and replacing it according to the manufacturer’s schedule is critical. Neglecting oil maintenance can result in complete system failure.
Causes of Engine Vibration When the Car Is Idling
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When a car begins to show slight vibrations while idling, the issue shifts from a minor annoyance to a warning sign. So, what causes a vehicle to shake while standing still?
What Are the Main Causes of Car Vibration?
Vibration at idle or during engine startup is usually linked to a malfunction in one of the engine’s core systems. The most common causes include:
- Worn spark plugs or ignition coils, leading to irregular combustion inside the engine.
- Dirty throttle body or clogged air filter, disrupting the air–fuel mixture.
- Clogged fuel filter or weak fuel pump, reducing fuel flow to the engine.
- Damaged engine mounts, which are designed to absorb vibrations.
- Faulty MAF sensor or oxygen sensor, causing unstable engine RPMs.
Do Faulty Spark Plugs Cause Vibration at Idle?
- Worn or dirty spark plugs lead to misfires, creating noticeable vibration while idling.
- Bad spark plugs reduce engine power and increase fuel consumption, with vibrations especially noticeable in Reverse (R) or idle mode.
- Spark plugs should be inspected and replaced immediately when signs of weak ignition appear.
Do Faulty Ignition Coils Cause Engine Vibration While Idling?
- Ignition coils generate the spark, and any malfunction results in weak or intermittent ignition.
- Even the failure of a single coil can cause significant engine shaking, especially at idle.
- Coils should be tested using a diagnostic scanner and replaced if defective.
Can a Clogged Air Filter Cause Vibration While the Car Is Stationary?
- A clogged air filter reduces the amount of air entering the engine, disrupting the air–fuel ratio.
- This imbalance leads to irregular combustion, causing vibration at idle.
- The air filter should be cleaned or replaced regularly, especially in dusty environments.
Does a Clogged Fuel Filter Cause Car Vibration?
- A blocked fuel filter restricts fuel flow, resulting in weak combustion.
- Vibration becomes noticeable at idle due to unstable engine RPMs.
- The fuel filter should be replaced during every scheduled maintenance.
Do Damaged Engine Mounts Cause Vibration at Idle?
- Engine mounts absorb engine movement; when worn, they cause strong vibrations at idle.
- The vibration increases during startup or when shifting to Drive (D).
- Engine mounts must be replaced when cracks or wear appear.
Do Faulty Air Sensors or Throttle Body Issues Cause Vibration?
- A faulty MAF sensor sends incorrect readings to the ECU, disrupting the air–fuel ratio.
- A dirty throttle body or clogged injectors causes noticeable vibration at idle.
- The throttle body and injectors should be cleaned, and the MAF sensor inspected.
Can ECU Problems Cause Vibration at Idle?
- Water intrusion or software malfunction in the ECU can cause irregular engine operation.
- Vibration becomes noticeable during startup or while idling.
- The ECU should be inspected, reprogrammed, or repaired.
Do Fuel System Issues Cause Vibration While the Car Is Stationary?
- A weak fuel pump or unstable fuel pressure causes fluctuating RPMs.
- Vibration is more noticeable at idle than while driving.
- Fuel pressure should be tested and injectors cleaned.
Can Tire or Wheel Issues Cause Vibration at Idle?
- Although less common, damaged tires or unbalanced wheels can cause noticeable vibration even when stationary.
- The vibration often appears in the steering wheel or cabin.
- Tires should be balanced and inspected for defects.
Do Transmission Problems Cause Vibration at Idle?
- A worn clutch or damaged transmission components can cause irregular power delivery.
- You may feel vibration at idle or when shifting into Drive (D).
- The transmission should be inspected and serviced by a specialist.
Tips to Prevent Engine Vibration
- Replace spark plugs and filters on time and never delay scheduled maintenance.
- Clean the throttle body and injectors periodically for stable combustion.
- Inspect engine mounts when any unusual noise or vibration appears.
- Use high‑quality fuel to prevent deposits in the injection system.
- Monitor the check‑engine light and never ignore dashboard warnings.
Causes of Sudden Loud Exhaust Noise and How to Fix It
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The exhaust sound can suddenly become louder without warning, turning driving into an annoying and worrying experience. What are the hidden causes behind this loud noise, and how can it be fixed quickly?
What are the most common causes of a sudden increase in exhaust noise?
- Corrosion or rust in the muffler, leading to cracks that allow exhaust gases to escape without proper silencing.
- A hole or crack in the exhaust pipe caused by hitting speed bumps or underbody impacts.
- Damage to the internal baffles inside the muffler, reducing its ability to absorb noise.
- A leak in the exhaust manifold, causing gases to escape before reaching the muffler.
- A damaged or clogged resonator, which alters the exhaust tone and increases sharpness.
- Issues in the catalytic converter that force exhaust gases out with higher-than-normal pressure.
What signs indicate a problem in the exhaust system?
- A loud roaring noise coming from underneath the vehicle.
- A hissing sound indicating a gas leak from the pipe or manifold.
- Noticing exhaust fumes inside the cabin, which is a dangerous warning sign.
- Vibrations in the pedals or vehicle floor during operation.
- Reduced engine performance or increased fuel consumption.
What are the basic steps to inspect the exhaust system yourself?
- Start the engine and listen carefully to locate the source of the noise or leak.
- Inspect the lower exhaust pipes for rust or holes.
- Ensure the rubber hangers supporting the exhaust system are intact.
- Check the catalytic converter for signs of clogging or damage.
- Observe any unusual vibrations when pressing the accelerator.
Can backfire cause a sudden increase in exhaust noise?
- Yes, a backfire inside the exhaust system produces a loud, sudden popping sound.
- Backfire usually occurs due to incomplete combustion inside the combustion chamber.
- Faults in the ignition system or spark plugs may allow unburned fuel to enter the exhaust.
- An imbalanced air–fuel mixture (too rich or too lean) leads to irregular combustion inside the exhaust.
- Using low‑quality fuel increases the likelihood of backfire.
How does an exhaust manifold leak increase exhaust noise?
- A manifold leak allows gases to escape before passing through the muffler, creating loud noise.
- The leak disrupts the backpressure needed for optimal engine performance.
- It may cause strong vibrations due to irregular gas flow.
- The leak is often caused by a burnt gasket or cracks in the manifold body.
Are speed bumps a hidden cause of loud exhaust noise?
- Yes, driving quickly over speed bumps can cause the exhaust system to hit the ground.
- This impact may create dents or cracks in the exhaust pipe.
- The rubber hangers may get damaged, causing the exhaust to vibrate and produce noise.
- Over time, these issues develop into gas leaks and noticeably loud exhaust noise.
How can a hole or crack in the exhaust be repaired?
- Small holes can be repaired using electric exhaust welding.
- If welding is not available, a thermal exhaust patch can be used as a temporary fix.
- The area must be cleaned thoroughly before repair to ensure proper adhesion.
- If the hole is large, replacing the damaged section is usually the best solution.
How can you prevent loud exhaust noise in the future?
- Avoid driving quickly over speed bumps to protect the exhaust pipe.
- Use high‑quality fuel to reduce the chances of backfire.
- Inspect the exhaust system every six months.
- Clean the resonator and muffler when needed to prevent buildup.
- Address any unusual noise immediately before the problem worsens.
What Is the VVT System and How Does It Increase Engine Power
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As engine issues and performance loss become increasingly common, the demand for smarter technologies that enhance cylinder breathing has grown. Variable Valve Timing raises a key question: can it truly redefine engine power and efficiency?
What Is the VVT System and How Does It Work Inside the Engine?
- The Variable Valve Timing (VVT) system adjusts the timing of the intake and exhaust valves according to engine speed and load, enhancing the engine’s internal breathing efficiency.
- The system modifies the valve opening moment, duration, and lift, allowing better airflow at high RPMs and reducing fuel consumption at low RPMs.
- It relies on sensors such as the camshaft position sensor and crankshaft position sensor to send real‑time data to the ECU, enabling precise timing adjustments.
- The actual adjustment is performed by the VVT solenoid, which directs oil pressure to the cam phaser to advance or retard camshaft timing.
How Does VVT Increase Engine Power?
- When additional power is needed, the system advances the intake valve timing, allowing more air into the cylinders, which increases combustion and power output.
- At high RPMs, the intake stroke duration becomes shorter; VVT improves cylinder filling, resulting in higher horsepower.
- The system enhances low‑RPM torque by retarding the exhaust valve timing, retaining some exhaust gases inside the cylinder and reducing fuel demand.
- The result is a more flexible engine with better acceleration and quicker throttle response.
What Are the Main Components of a VVT System?
- Camshaft Position Sensor: Monitors camshaft position for accurate timing control.
- VVT Sensor: Measures oil pressure and operating temperature, sending data to the ECU.
- VVT Solenoid (Oil Control Valve): Regulates oil flow to the cam phaser.
- Cam Phaser: Rotates the camshaft to alter valve timing.
What’s the Difference Between VVT, VVT‑i, VTEC, and VANOS?
- VVT: The general term for variable valve timing technology.
- VVT‑i (Toyota): An enhanced version featuring intelligent timing control.
- VANOS (BMW): Uses oil pressure to adjust camshaft positioning.
- VTEC (Honda): Alters both valve timing and valve lift, known for its sporty performance characteristics.
What Are the Benefits of a VVT System?
- Increased horsepower at high speeds.
- Improved torque at low RPMs.
- Noticeable reduction in fuel consumption.
- Lower harmful emissions.
- Smoother engine operation with reduced vibrations.
What Are the Signs of a Failing VVT System?
- Poor acceleration or loss of power.
- Vibrations at idle or fluctuating RPM.
- Abnormally high fuel consumption.
- Check Engine light triggered by camshaft or VVT sensor faults.
What Causes VVT System Failures?
- Low or contaminated engine oil—the most common cause.
- Clogged VVT solenoid due to sludge or deposits.
- Faulty VVT sensor or incorrect data transmission.
- Wear in the cam phaser or related mechanical components.
How Is the VVT System Maintained?
- Change engine oil on schedule to prevent solenoid blockage.
- Clean or replace the VVT solenoid when performance issues appear.
- Periodically inspect camshaft and crankshaft sensors.
- Use engine oil that meets the manufacturer’s specifications.
Can You Drive With a Faulty VVT System?
- Short‑distance driving is possible, but prolonged use may cause severe performance loss and increased fuel consumption.
- In some cases, it may lead to damage to the cam phaser or camshaft.
Does a Faulty VVT Affect Engine Sound?
- Yes. A failing VVT system may cause ticking, rattling, or roughness, often due to cam phaser issues or low oil pressure.
Is the VVT System Part of the Camshaft?
- Yes. The cam phaser is mounted directly on the camshaft and controls its rotational angle.