There is a 1.6-liter, four-cylinder engine behind the hood. The engine has four valves per cylinder, single-overhead cams, and a maximum horsepower of 106 at 6,200 rpm. Top-tier EX models include a VTEC engine with 127 horsepower.
In This Article...
Is a 1998 Honda Civic good?
The best thing about the earlier Civic models is that despite their age, they remain just as relevant today. The 1998 model of the sixth-generation Civic, in particular, has a very good dependability rating from experts and owners. In addition to being cozy, they are also absurdly affordable, simple to acquire, and maintain. According to Edmunds, the majority of owners concur that their 1998 Honda Civic has never had any significant mechanical problems. Considering their size and cost, they are responsive, practical, and simple to drive. The 1998 Honda Civic’s extremely low number of customer complaints is another example of its dependability and effectiveness.
The D16Y8 has VTEC, right?
- 1996-1997 Suzuki Del Sol (US)
- 1.6 EL 1997-2000 Acura (Canada)
- Honda Civic EX, 1996-2000 (US, UK)
- Honda Civic Coupe, 1996–1998 (UK)
- Honda Civic Si, 1996-2000 (Canada)
One of the most sought-after D16 engines is the D16Y8, often referred to as the D16Y6 in New Zealand.
With SOHC VTEC and a 9.6:1 compression ratio, it can produce 127 horsepower at 6,600 rpm and 107 lb/ft of torque at 5,500 rpm before switching to VTEC at 5,600 rpm.
Which Civics have VTEC?
Three separate Honda Civic models all have one of the two available VTEC-equipped engines that are available for new Honda Civics. The two engines in question are both four-cylinder, lightweight K20 engines, which are well respected for their performance. The small four-cylinder engines developed by the K20 series are possibly the best ever made, including astounding power-to-weight ratios, cleverly simple designs, and incredibly high reliability.
The naturally aspirated K20C2 in the base trims of the Civic sedan and the turbocharged K20C1 in the Civic Type R are the two K20 engines that make use of VTEC in the 2021 Civic. The K20C2 maximizes engine efficiency by using an updated i-VTEC technology for both the intake and exhaust valves. The K20C1 uses VTEC only on the engine’s exhaust side, while a turbocharger forces air into the engine’s intake side at a high pressure. This configuration places a high priority on power and increases the engine’s horsepower and torque without requiring more displacement.
How is VTEC put to use?
In essence, the VTEC system blends high-RPM performance with low-RPM fuel efficiency and stability. Additionally, the changeover happens smoothly, enabling consistent performance across the entire powerband. The engine computer manages the switching process between the two cam lobes.
How quick is a 1998 Honda Civic?
This Honda can accelerate from 0 to 60 mph in 10.1 seconds, from 0 to 100 km/h in 10.7 seconds, from 0 to 160 km/h (100 mph) in 33.4 seconds, and the quarter-mile drag time is 17.8 seconds, according to ProfessCarsTM estimates.
How durable is a 1998 Honda Civic?
With proper use and care, the Honda Civic is a tough vehicle that may endure for roughly 20 years. This indicates that your Honda Civic has a service life of roughly 200,000 to 300,000 miles before it totally fails.
98 Civics are what generation?
Honda built cars under the sixth generation Civic name from 1995 to 2000. It was released in 1995 with the same body types as its predecessor, including a 3-door hatchback, 4-door sedan, and 2-door coupe. The sixth generation Civic offered two new 1.6-liter 4-cylinder engines, a new continuously variable gearbox (CVT) for the HX model, and remained front-wheel drive. The hatchback is 4.3 in (109 mm) longer than the previous generation Civic, while the coupe and sedan are both 2.3 in (58 mm) longer.
In order to replace the Honda Concerto hatchback in Europe, a 5-door hatchback was also produced. However, despite sharing the same design language as the rest of the Civic lineup, this model was quite different because it was actually a hatchback version of the Honda Domani, which shared the same platform as the fifth-generation (EG/EH/EJ) Civic. In Japan, the Concerto sedan was replaced by the Domani, whereas in other regions, the Concerto sedan was simply replaced by the sixth generation Civic sedan. The JDMOrthia, based on the Civic sedan/3-door hatchback line, and a 5-door hatchback/Domani-based variant, marketed as the Civic Aerodeck in Europe, were also made available. Both were unavailable in North America. Although the 1995 Rover 400’s 4-door sedan model was very different from the Domani, it was also based on the Civic 5-door hatchback.
It was the third time the nameplate had received the Car of the Year Japan Award when it was introduced in 1995.
A em1 has what kind of an engine?
A 1.6-liter “B16” inline-four engine, which was not used on standard Civic models, powers it. The engine is known for its unique VTEC variable valvetrain system and 8,000 rpm redline.
VTEC is present in the 1999 Honda Civic EX?
Honda finally caved in and fitted the Civic with the 160-horsepower B16 engine in 1999. Honda’s variable valve-timing system, or VTEC, was not very novel in 1999.
Describe Honda Ek.
Fuel injection was first made available in all of the EK Civic’s variations, making it the nation’s first compact sedan. The VTi with its 1.6-liter VTEC engine was the top-spec Civic at the time of its introduction. It was also the most potent vehicle in its class with over 120 PS under the hood, but more was to come.
What distinguishes VTEC from non-VTEC?
A new valvetrain system called VTEC (Variable Valve Timing and Lift Electronic Control) was created by Honda to give users a more adaptable driving experience. Before VTEC, non-VTEC engines could only be set up for one camshaft profile. It is possible to adjust this so that it performs better at high or low RPMs. Depending on how the car is being utilized, VTEC enables the engine to transition between two camshaft profiles.
For everyday driving, low RPM optimized camshafts make more sense because they offer improved fuel efficiency and rapid acceleration at low speeds. It is more aggressive and typically reserved for usage in racing to optimize for high RPMs. If your engine is tuned for high RPMs, it will burn a lot more gasoline and be less responsive at low speeds. However, the increased power at high RPMs, which can easily convert into a considerably higher top speed, more than makes up for this. Non-VTEC engines can only be optimized for one of these two situations, however VTEC engines can have the best of both worlds. VTEC accomplishes this by electronically switching profiles in response to other conditions. The VTEC engine employs a number of variables, including the vehicle’s speed and engine RPM, to determine when to switch profiles.
It’s simple to assert that non-VTEC engines are widely available on the market, coming from various automakers and suppliers. On the other side, Honda is the only manufacturer of VTEC engines and their associated cars. Although they go by a different name, other automakers do have alternative technologies that mimic VTEC’s capabilities in their cars.
There is no debate between VTEC and non-VTEC engines when purchasing a vehicle intended for daily driving. VTEC engines give you more versatility and are capable of meeting your needs. Given today’s quickly growing gasoline prices, VTEC engines may initially cost you a little bit more, but they will more than make up for that additional expense in fuel savings.
Summary:
1. In contrast to non-VTEC engines, VTEC engines have two camshaft profiles.
2. Non-VTEC engines can only be optimized for either high or low performance with VTEC engines, whereas
3. Only Honda vehicles feature VTEC, whereas non-VTEC models are available from all automakers.
When does the VTEC start working?
In 3-Stage VTEC, the timing and lift of the intake valves are managed by three separate cam profiles. Since there isn’t much room in this version of VTEC because it was built around a SOHC valve head, it can only change how the intake valves open and close. In this application, conventional VTEC performance and low-end VTEC-E fuel economy advantages are combined. In 12-valve mode, which is used between idle and 2500–3000 RPM depending on the load, one intake valve fully opens while the other very minimally does so to avoid fuel from accumulating behind the valve. This 12 Valve mode causes the intake charge to swirl, improving low end performance and fuel economy by increasing combustion efficiency. Depending on the load, one of the VTEC solenoids engages at 3000–5400 RPM, causing the second valve to lock onto the camshaft lobe of the first valve. This technique, also known as 16-valve mode, mimics a typical engine operating mode and enhances the mid-range power curve. Both VTEC solenoids are now engaged at 5500–7000 RPM, causing both intake valves to use the middle portion of the camshaft. Peak power is produced at the highest end of the RPM range by the third lobe, which is optimized for high performance.
In a more recent version of 3-Stage i-VTEC, VTC and PGM-FI were merged to allow the ECU to regulate the whole spectrum of modes and archive higher performance and fuel economy advantages. The Honda CR-Z can continuously transition between low-end and standard modes between 1000 and 2250 rpm and engage high cam mode from 2250 rpm and above on SOHC.