Our belief is that a great bike is one that harmonises power, efficiency, and comfort, delivering an exceptional riding experience. That's precisely what we've aimed for with the Hero Super Splendor. Powered by a 124.7cc engine, it packs a punch and also delivers impressive mileage—making it a go-to for everyday riders. But do you want to know one of the main secrets behind its remarkable fuel efficiency?
It's aerodynamics—a key consideration in making the Super Splendor one of the best 125cc mileage bikes around.
Let's dive into how aerodynamics plays a crucial role in maximising fuel efficiency and enhancing the overall riding experience.
Aerodynamics might sound fancy, but it's really just about how air moves around objects—like your bike. When it comes to our new 125cc bike models, which offer excellent mileage, we have made sure to design a structure that reduces air resistance as much as possible.
By optimising the design, we've not only improved the mileage of Super Splendor but also made sure you spend less time at the fuel pump and more time enjoying the ride. It's our way of combining innovation and practicality for a truly fuel-efficient experience.
When we crafted the Super Splendor, we made sure its design wasn't just stylish but also functional. A streamlined body means smoother rides, better fuel efficiency, and enhanced stability. Here's how we've done it:
Now, you might be wondering, how exactly does aerodynamics translate to better mileage? Essentially, the more streamlined a bike is, the less air resistance it encounters. This means:
While aerodynamics plays a big part in improving the average of the Hero Super Splendor, we didn't stop there. Our innovative i3S technology adds another layer of fuel-saving potential by automatically shutting off the engine when idle and restarting it with a simple twist of the throttle. This feature helps minimise fuel waste while reinforcing our dedication to environmental sustainability.
When we built the Super Splendor, we made sure it was light on its feet with a kerb weight of just 122 kg (drum brake variant) because less weight means less effort for the engine. And when the engine doesn't have to work as hard, you get more mileage out of every litre, especially on those long rides where efficiency really matters.
Sure, aerodynamics and performance are great, but let's not forget—how your bike looks matters too! The Super Splendor is designed to stand out. With bold, head-turning colours like Black-Silver STR, Metallic Nexus Blue, Candy Blazing Red, and Black-Sports Red, your ride gets a personality as unique as yours.
Because let's face it—when you're cruising with impressive mileage, why not do it in style? The Super Splendor lets you have the best of both worlds—a performance that saves fuel and a design that grabs attention wherever you go.
We have put our heart into making the Super Splendor to give you a fuel-efficient partner for the road. By focusing on the science of aerodynamics, we've crafted a ride that's not just smoother but smarter, helping you save on fuel without compromising on performance. From its streamlined body to its thoughtfully lightweight design, every feature is built with efficiency in mind.
If you're ready to enjoy a bike that pairs fuel economy with effortless style and performance, the Hero Super Splendor is here for the journey. Let's hit the road together—smarter, sleeker, and ready to go the distance!
1. How does aerodynamics affect the mileage of the Super Splendor?
Aerodynamics reduces air resistance, allowing the engine to work less hard, which leads to better fuel economy and helps the Super Splendor achieve up to 13% more mileage compared to earlier models.
2. What features contribute to the bike's aerodynamic design?
The Super Splendor features a streamlined body with sleek lines, a smart front design that directs airflow around the bike, and integrated components that minimise bulk and drag.
3. What is i3S technology, and how does it enhance fuel efficiency?
i3S technology automatically shuts off the engine when idle and restarts it with a twist of the throttle, reducing fuel wastage and emissions while maintaining convenience for riders.
4. How does the weight of the Super Splendor impact its performance?
A lighter bike requires less effort from the engine, which enhances fuel efficiency, especially during long rides. The Super Splendor’s smart diamond frame contributes to its balanced weight.
5. How does aerodynamics improve stability at higher speeds?
A streamlined design reduces drag, which helps maintain stability and control when riding at higher speeds, making for a safer riding experience.
1. How does aerodynamics affect the mileage of the Super Splendor?
Aerodynamics reduces air resistance, allowing the engine to work less hard, which leads to better fuel economy and helps the Super Splendor achieve up to 13% more mileage compared to earlier models.
2. What features contribute to the bike's aerodynamic design?
The Super Splendor features a streamlined body with sleek lines, a smart front design that directs airflow around the bike, and integrated components that minimise bulk and drag.
3. What is i3S technology, and how does it enhance fuel efficiency?
i3S technology automatically shuts off the engine when idle and restarts it with a twist of the throttle, reducing fuel wastage and emissions while maintaining convenience for riders.
4. How does the weight of the Super Splendor impact its performance?
A lighter bike requires less effort from the engine, which enhances fuel efficiency, especially during long rides. The Super Splendor’s smart diamond frame contributes to its balanced weight.
5. How does aerodynamics improve stability at higher speeds?
A streamlined design reduces drag, which helps maintain stability and control when riding at higher speeds, making for a safer riding experience.
1. How does aerodynamics affect the mileage of the Super Splendor?
Aerodynamics reduces air resistance, allowing the engine to work less hard, which leads to better fuel economy and helps the Super Splendor achieve up to 13% more mileage compared to earlier models.
2. What features contribute to the bike's aerodynamic design?
The Super Splendor features a streamlined body with sleek lines, a smart front design that directs airflow around the bike, and integrated components that minimise bulk and drag.
3. What is i3S technology, and how does it enhance fuel efficiency?
i3S technology automatically shuts off the engine when idle and restarts it with a twist of the throttle, reducing fuel wastage and emissions while maintaining convenience for riders.
4. How does the weight of the Super Splendor impact its performance?
A lighter bike requires less effort from the engine, which enhances fuel efficiency, especially during long rides. The Super Splendor’s smart diamond frame contributes to its balanced weight.
5. How does aerodynamics improve stability at higher speeds?
A streamlined design reduces drag, which helps maintain stability and control when riding at higher speeds, making for a safer riding experience.
1. How does aerodynamics affect the mileage of the Super Splendor?
Aerodynamics reduces air resistance, allowing the engine to work less hard, which leads to better fuel economy and helps the Super Splendor achieve up to 13% more mileage compared to earlier models.
2. What features contribute to the bike's aerodynamic design?
The Super Splendor features a streamlined body with sleek lines, a smart front design that directs airflow around the bike, and integrated components that minimise bulk and drag.
3. What is i3S technology, and how does it enhance fuel efficiency?
i3S technology automatically shuts off the engine when idle and restarts it with a twist of the throttle, reducing fuel wastage and emissions while maintaining convenience for riders.
4. How does the weight of the Super Splendor impact its performance?
A lighter bike requires less effort from the engine, which enhances fuel efficiency, especially during long rides. The Super Splendor’s smart diamond frame contributes to its balanced weight.
5. How does aerodynamics improve stability at higher speeds?
A streamlined design reduces drag, which helps maintain stability and control when riding at higher speeds, making for a safer riding experience.