What are the differences between BMW M5 and M6?

Changan Oshan X5 only has one reverse light. Most modern cars are equipped with only one reverse light on the right side, except for a few models that have two reverse lights. This is because when reversing, the driver's side visibility is hardly affected, as the brake lights and width markers provide sufficient illumination. However, visibility on the passenger side is poorer, so the white light from the reverse light helps improve it. Here is some relevant information about the Changan Oshan X5: Appearance: The Oshan X5 adopts a boxy design typical of SUVs, with straight body lines and a low, wide-body stance. Powertrain: The Oshan X5 is equipped with the Blue Core NE1.5T engine, the only one in its class with a twin-exit cylinder head integrated exhaust manifold and a twin-scroll electronically controlled turbocharger. It delivers a maximum power of 132kW and a maximum torque of 300Nm, with a robust 180 horsepower. It is paired with a wet 7DCT automatic transmission, which achieves a response time of 251ms and a comprehensive transmission efficiency of up to 94.5%.

Toyota Yaris transmission fluid is recommended to be changed within 3 years or 60,000 kilometers for automatic transmission fluid. Generally, 4 liters of oil are required for a basic change, or a circulating machine can be used, which typically requires about 10 liters of oil. Older vehicles may require more frequent maintenance. It's important to note that the manufacturer does not specify a corresponding replacement and maintenance cycle for transmission fluid. For automatic transmissions, 4S shops usually recommend changing it every 80,000 to 100,000 kilometers, while for manual transmissions, the recommendation is every 40,000 kilometers. Using a circulating machine to change the transmission fluid generally requires about 8 liters. Precautions when changing automatic transmission fluid: When changing the fluid, it is essential to use the automatic transmission fluid specified by the manufacturer. Different automatic transmissions have varying internal structures, friction components, and sealing components. The original fluid is specially formulated based on the transmission's structure and materials. Other brands of fluid, even if of high quality, may not be suitable. Additionally, when changing the transmission fluid, some old fluid may remain in the transmission channels and torque converter. Mixing different fluids inside the automatic transmission may degrade the performance of the transmission fluid, leading to poor lubrication or operational abnormalities, which can severely damage the automatic transmission.

Direct injection engines experience more severe carbon buildup issues compared to conventional port fuel injection engines. For port fuel injection engines, the engine draws in a combustible air-fuel mixture. During the intake process, gasoline molecules in the combustible mixture help clean the engine's intake passages and valves—key areas prone to carbon buildup—to some extent. Therefore, carbon buildup is not a significant issue for port fuel injection engines. Methods for removing carbon deposits from car engines are as follows: 1. Additive Cleaning (Fuel Additives): Additive cleaning involves directly adding a cleaning agent to the fuel tank to mix with the fuel. When the vehicle starts, the cleaning agent enters the combustion chamber along with the fuel and cleans the carbon deposits inside the engine to a certain degree. 2. Drip Cleaning: Drip cleaning, commonly known as no-disassembly cleaning, is a cleaning method currently promoted by many 4S shops. This method uses a drip system to introduce the cleaning agent into the engine's intake pipe, where it is drawn into the combustion chamber along with the intake airflow. During this process, the cleaning agent cleans carbon deposits in the intake passages and combustion chamber. 3. Disassembly Cleaning: As the name suggests, disassembly cleaning involves removing parts of the engine with carbon buildup for thorough cleaning. Although this method provides the best cleaning results, it is labor-intensive and time-consuming, so most 4S shops do not offer this service.

The brand of Bestune B70 is FAW Bestune, which was established on May 18, 2006, as a Chinese automobile brand. It mainly produces SUVs, sedans, and other vehicle models. In addition to the Bestune B70, FAW Bestune's product lineup mainly includes the Bestune T55 Niuben Edition, Bestune T55, Bestune X40, Bestune T33, and others. Key milestones in its development are as follows: On October 17, 2018, FAW Bestune launched the "New Bestune" brand development strategy in Tengchong, Yunnan, and officially adopted the newly designed Bestune logo "Window of the World." At 8 PM on March 16, 2021, the launch event of the Bestune T55 Niuben Edition, titled "5 Surprises, Niuben Arrives," kicked off in the JD.com live stream room with themes of "Ox Mode, Ox Traffic, Ox Crossover, Ox Benefits." In May 2021, FAW Bestune celebrated its 15th anniversary by releasing a commemorative edition of the B70 and unveiling a new brand strategy. On November 18, 2021, China FAW's first independently developed coupe SUV and the first strategic model under FAW Bestune's new brand strategy made their debut. On December 14, 2021, FAW Fuwei and FAW Bestune signed a strategic cooperation framework agreement.

Civic's exhaust pipe blackening is related to the engine's combustion conditions, such as during warm-up when the engine is cold or under load acceleration. In these scenarios, the system operates in an open-loop control state with relatively prolonged fuel injection timing, leading to the expulsion of partially unburned mixtures. Additional Information: 1. The exhaust pipe is part of the engine's exhaust system, which mainly includes the exhaust manifold, exhaust pipe, and muffler. Typically, the three-way catalytic converter, designed to control engine pollutant emissions, is also installed in the exhaust system. The exhaust pipe generally consists of a front and rear section. Turbocharged engines primarily enhance engine power by increasing intake pressure. The turbocharger operates at extremely high speeds, with its rotation speed dependent on the volume of exhaust gases. The variation in the air-fuel mixture before and after turbo activation is significant, making it inherently more challenging to control the mixture's concentration. Consequently, the likelihood of incomplete fuel combustion is higher in turbocharged models compared to naturally aspirated ones, which is understandable. 2. Part of the unburned oil vapor undergoes carbonization when passing through the three-way catalytic converter. Over time, these carbon deposits accumulate at the exhaust pipe's outlet, resulting in blackening observed in over 80% of turbocharged engine exhaust pipes. Therefore, vehicle owners are advised to regularly maintain their cars, periodically inspect and replace spark plugs, clean the three-way catalytic converter, minimize high-gear low-speed driving, reduce idle time, and frequently clean carbon deposits from various parts of the engine.

If the underinflation is caused by a minor air leak, driving at low speeds for short distances is generally not a major issue. However, you must avoid driving at high speeds or for long distances, as this increases the risk of a tire blowout. When tire pressure is insufficient, high-speed driving can easily cause the tire to deform in a wave-like manner, significantly raising the chances of a blowout. To prevent issues with underinflated tires while driving, it is essential to regularly check your tires during routine vehicle use. If the tire pressure drops without any apparent reason, inspect the tire for leaks, punctures from nails, or other damage.