Differences Between Continental Tire Series

Shandong Zhengbang tires are produced by Chaoyang. Precautions for using car tires are as follows: 1. Tire alignment: If you notice uneven tire wear or excessive vehicle vibration while driving, promptly check the tire alignment. Failure to address this issue may affect vehicle handling and, in severe cases, lead to hazardous situations. 2. Regularly check tire pressure: Tire pressure directly impacts tire performance. Insufficient pressure increases friction with the road surface, accelerating tire wear. It is recommended that owners check tire pressure monthly, using the parameters suggested by the vehicle manufacturer as the standard. 3. Stop using tires when they reach the wear indicator: Wear indicators are typically designed at a remaining tread depth of approximately 1.6 mm in the tire grooves. Tires must be replaced when worn to this indicator, as driving with tires beyond this point is particularly dangerous on wet surfaces due to significantly reduced drainage and compromised wet traction. 4. Avoid hitting obstacles: High-speed impacts with potholes or other obstacles can cause severe deformation between the obstacle and the wheel rim flange, leading to bulges or sudden tire deflation.

The Sagitar's maximum wading depth is 70 cm, while the safe wading depth is 31 cm. Below is an introduction about the Sagitar: 1. Wading: The Sagitar's exhaust pipe has a ground clearance of 32 cm, and the half-height of the wheels is 31 cm. These two heights are roughly at the same level, indicating that the Sagitar's safe wading height is around 30 cm. Above this height, water may enter the exhaust pipe. However, as long as you maintain steady driving, the vehicle won't stall. There's no need to accelerate heavily to pass through; you can confidently wade through the water. 2. Reasons: The engine has three potential water entry points: the air filter, the oil dipstick hole, and the exhaust pipe. The first two are roughly level with the top of the tires, so as long as the water doesn't submerge the front wheels, it's not a concern. The exhaust pipe is lower, but even if submerged, as long as the engine is running, it continuously expels gases, preventing water from entering. The biggest risk with a submerged exhaust pipe is stalling—the moment the engine stalls, the negative pressure in the cylinder could draw water in.

Sehol QX's three major components are not produced by Volkswagen. The engine is a domestically produced engine by the Jianghuai Group, as Volkswagen does not have a 1.5T engine. Similarly, Volkswagen does not have CVT transmissions, which are predominantly used in domestic and Japanese vehicles. The chassis does not specify a specific model, making it difficult to verify. Below is an introduction to automotive components: 1. The Three Major Components of a Car: These refer to the engine, transmission, and chassis. The quality of these three components significantly impacts the overall quality of the car. Therefore, it is recommended to pay close attention to the quality of these components when purchasing a car. 2. Engine and Transmission: These belong to the powertrain of the car. The engine is the heart of the car, generating power that is transmitted to the transmission. The transmission then transfers this power to the wheels via the driveshaft. The role of the transmission is to vary speed and torque, ensuring the engine's output meets the car's demands under any operating conditions. There are two main types of transmissions in cars: manual transmissions and automatic transmissions. Common automatic transmissions in cars include three types: AT transmissions, CVT transmissions, and dual-clutch transmissions.

An automatic transmission car shaking when shifting to reverse gear may be due to insufficient or dirty transmission fluid. Here are the details about automatic transmission gear positions: 1. P (Park) Position: This is the parking and starting position. When engaged, the parking lock mechanism locks the transmission output shaft. 2. R (Reverse) Position: This is the reverse gear. Engaging this position connects the hydraulic system's reverse gear circuit, causing the drive wheels to rotate in reverse for backward movement. Never force the gearshift into "R" position when the vehicle isn't completely stopped, as this may damage the transmission. 3. N (Neutral) Position: This is the neutral gear. When engaged, the planetary gear system idles without power output. 4. D (Drive) Position: This is the forward drive position. When the gear selector is in this position, the hydraulic control unit automatically engages appropriate forward gears based on throttle opening and vehicle speed signals, enabling automatic shifting according to driving speed for automatic transmission functionality. 5. S (Sport) Position: This is sport mode. When selected, the transmission control module receives the driver's command, putting the vehicle into sport mode with more aggressive shift logic, frequent gear changes, enhanced throttle response, and improved driving dynamics for greater driving pleasure.

Here are the solutions for the sharp noise when braking in a Sagitar: 1. Squealing noise: If it's a squealing noise, check if it indicates that the brake pads are nearly worn out (the warning tab is making the sound). If they are new pads, then check if there are any foreign objects caught between the brake disc and the pads. 2. Dull noise: If it's a dull noise, it's mostly an issue with the brake caliper, such as worn sliding pins or a detached spring plate. 3. "Hissing" noise: If it's a "hissing" noise, then there could be multiple issues, including problems with the caliper, brake disc, or brake pads. If the noise persists, first check if there is any brake drag, as poor caliper retraction can cause prolonged friction between the disc and pads, leading to noise under certain conditions. Then check if there are any foreign objects stuck between the pads and the disc. If the pads are new, inspect the brake disc for grooves, as localized friction can cause noise. If the disc is fine, consider whether the brake pads are too hard or if the noise reduction shims were installed incorrectly.

Vehicle load classification is represented by vehicle fleets, which are divided into four levels: Vehicle-10, Vehicle-15, Vehicle-20, and Vehicle-Super 20. Below is relevant extended information: 1. Basic Introduction: The numerical value of the load classification indicates the total weight in tons of a main vehicle. In each fleet level, there is only one heavy vehicle, with main vehicles positioned before and after it. A heavy vehicle refers to the vehicle with the largest total weight within a specified load classification. Through the analysis, synthesis, and summarization of actual vehicle factors such as the number of axles, the distance between front and rear axles, and axle pressure, standardized loads for bridge design are stipulated in the highway bridge and culvert design specifications. 2. Application: During bridge design, lane loads should be arranged according to the number of design lanes determined by the standards. Each design lane must be equipped with a lane load. Longitudinally, the standard value of uniformly distributed load can be arbitrarily intercepted along the bridge's longitudinal direction and fully distributed on the influence line of the same sign that causes the most unfavorable load effect on the structure. The standard value of concentrated load PK acts at the peak of a corresponding influence line. Transversely, both uniformly distributed loads and concentrated loads are evenly distributed within the 3500000mm width of the design lane.