The Need for Speed
The quest for speed is an everlasting desire that fuels the minds of engineers and enthusiasts alike. In the world of remote control (RC) cars, this desire is no different. The pursuit of pushing the limits has led to some impressive milestones, but with each triumph, new challenges arise. One such challenge is finding tires that can withstand incredible speeds without sacrificing performance.
A Common Problem
In our previous video, we managed to reach an impressive speed of 193 mph. However, our joy was short-lived as the wheels gave out, causing the car to crash. This is a problem that plagues all RC cars aiming for speeds exceeding 200 mph. The tires, made of foam, simply cannot handle the strain and come apart at high velocities.
The Weight Dilemma
Many viewers suggested using rubber tires as a solution to this issue. While rubber tires can indeed withstand higher speeds, they come with a significant drawback – weight. The centrifugal force acting on the tires at speeds above 150 mph becomes intolerable for rubber tires, leading to catastrophic failure. Thus, foam tires have been the go-to choice for RC cars attempting to break speed records.
Pushing the Boundaries
Up until now, foam tires have been the best option for achieving high speeds in RC cars. However, the pursuit of even greater velocities necessitates a new approach. With our sights set on surpassing the 220 mph mark, we must explore alternatives and get creative.
An Experimental Solution
We have embarked on a journey to develop a tire that can withstand speeds exceeding 250 mph. Our latest experiment involves a motor directly driving the wheel, eliminating any mechanical components that may impede performance. This stripped-down approach allows us to maximize power and focus on the vital task at hand.
The Proof is in the Numbers
Equipped with an RPM counter, we set out to test the capabilities of our experimental tire. As the numbers flash across the screen, anticipation builds. Will this innovative design be the breakthrough we’ve been seeking? Only through rigorous testing can we determine the true potential of our creation.
Unleashing the Beast
Armed with our tire prototype, we eagerly take the RC car out for another run. Adrenaline courses through our veins as we push the car to its limits. Will it finally conquer the elusive 250 mph barrier? The wind whistles in our ears as the car speeds down the track, leaving behind a trail of uncertainty and excitement.
In the world of RC car enthusiasts, every new development brings a glimmer of hope and a sense of wonder. The pursuit of pushing the limits is what drives us to embark on daring experiments and find innovative solutions. As we continue to explore the realm of extreme speeds, the quest for the perfect tire to withstand the forces at play remains at the forefront of our minds.
In our relentless pursuit of speed, we will leave no stone unturned and no tire untested. The road to 250 mph may be treacherous, but it is the challenges we face that make the journey all the more exhilarating. Stay tuned as we push the boundaries of what is possible in the world of RC car racing.
Measuring the Tire Speed
In order to determine the speed of the car, we need to investigate how fast the tires can spin. By comparing different tire designs and measuring their RPM, we can gain insight into the potential speed of our RC car. Keep in mind that these results may not be entirely accurate since there is no load pushing the tires onto the road.
Testing Foam Tires
To start off, we will run a test using contact foam tires. This type of tire is commonly used in the industry, so it will provide us with a baseline measurement. We will gather data on how fast the foam tires can spin and then input these details into a computer program to calculate the car’s potential speed.
Gone Bananas Prototypes
Next, we have the opportunity to test out the highly regarded Gone Bananas foam tires. Known for their exceptional performance, these prototypes are anticipated to bring about even greater speeds. However, since we only have four of these prototypes, we will proceed with caution to ensure we don’t waste any.
Introducing Our Secret Tire Design
In addition to the foam tires, we have developed our own unique tire design. This design is specially crafted, with the hope of surpassing the 250 mph mark. While it remains a secret for now, we are eager to see the results of our innovative creation.
To maintain a safe environment during the testing process, we have constructed a contraption that allows us to control the RC car remotely. This ensures that we have the necessary precautions in place to protect ourselves while gathering the data we need.
As we proceed with the experiments, we are filled with anticipation and curiosity. Will our secret tire design truly exceed expectations and reach speeds we have only dreamt of? Only time will tell. Stay tuned for further updates on our exciting 250mph Sausage RC Car project.
The Power of Throttle: Unearthing the Mysteries of Top Secret Tires
As the 250mph Sausage RC Car project gains traction, the need for high-performance tires has become apparent. In a venture to push the limits of speed, the team has equipped the car with top secret tires that promise to elevate its capabilities to new heights.
An Unsettling Observation
With the cameras capturing every moment, the team initiates the experiment. With just a little throttle, the expansion of the tires is astonishing. One camera focuses on the RPM, while another captures a side-on profile of the car. Holding our breath, we witness the terrifying sound and the disappearance of the tires in an instant.
Unveiling the True Power
Fortunately, the slow-motion playback allows us to delve deeper into the phenomenon. The data reveals an astounding 23,000 RPM, coupled with 100 mm tires. This combination translates into an astonishing speed of 269 mph. However, it is crucial to acknowledge that under real-world conditions and the tire’s contact with the road, foams between the tire and the ground can only sustain up to approximately 170-180 mph.
Gone Bananas: A Catastrophic Experiment
Curiosity drives us forward, and the team decides to put another set of tires to the test. This time, it is the “Gone Banana” tires, boasting the same diameter as the previous ones. What unfolds is beyond comprehension. The tires annihilate the entire wheel setup, leaving nothing but chaos in their wake. Synchronized with 43,000 RPM, these tires reach an unbelievable speed of 504 mph.
Upon closer inspection, the aftermath of this catastrophic event reveals the true magnitude of the chaos that ensued. Not only did the tires rip apart the entire wheel structure, but a piece of the tire managed to break free and cause damage elsewhere. The impact dented a nearby hose and left traces of plastic on the spring T system. The team breathes a sigh of relief, knowing that the explosion was contained, preventing any further casualties.
Astonishing Cones of Disarray
Intriguingly, the slow-motion footage reveals an unexpected phenomenon. The tire, under immense pressure, caused the wheel to cone outward to an unthinkable extent. When frozen in time, the cone reached an astonishing distance, surprising even the most experienced experts.
Testing the Limits of Foam
I mean, I’m surprised that the foam even stayed on as well as it did. So what’s making it come off must be like the combined GeForce pulling it off and the abrasion of the floor. It’s mad crazy, anyway. Now I have to put a new link on there and then we’ll be back in action.
Experimenting with Tire Size
If you remember back on the video where I ran this car, I experimented with narrower tires to sort of limit this action from happening and also used less foam. I turned it down this way, making the tire smaller at 91 mm. Normally, we run these at about 100 mm. My idea was to try and pull it all off. So let’s chuck this on the rig and see what happens.
The Power of the Motor
The motor actually ran out of power. I just reset it to ESC and we’re going to get on it a bit quicker just to see what happens, but it seems to be holding a lot better. That took it flat out. The memory on here says 45,000 RPM next up.
Testing the Prototype
I want to try my prototype. Let’s see what this puppy’s made of. Here we go, it took maximum RPM and it looks kind of intact, guys. It’s intact. The motor got to full RPM and it didn’t blow. We could be on to something.
A Slightly Lower RPM
This time it only revved to 23,000 RPM.
The Challenge of Balancing the Sausage RC Car
When attempting to reach high speeds with an RC car, one of the crucial factors that must be considered is the balancing of the vehicle. Without proper balance, the car can shake uncontrollably, causing the ESC to cut out and hindering performance. This was precisely what was happening with the 250mph Sausage RC Car project.
An Ambitious Speed Goal
The goal of the project was clear: to reach a top speed of 250mph and break the existing world record. With this in mind, the team set out to design a tire capable of withstanding the immense speed and vibrations associated with such a feat.
An Unexpected Discovery
During testing, it was discovered that the homemade tire was not performing optimally. While it was capable of reaching an impressive 23000 RPM, equivalent to a speed of 285mph, it fell short in comparison to the 45000 RPM achieved by the gone banana tire. The team suspected that the excessive vibration was causing the entire rig to shake, thus leading to power loss and ESC cutouts.
The Importance of Balance
In order to address the issue of imbalance, the team introduced a prop balancer. By attaching a wheel to the balancer and allowing it to spin freely, they were able to identify the heavy portion of the tire. Adding weight to the opposite end balanced the tire and eliminated the vibrations that were disrupting performance.
A Top Secret Design
While the team made significant advancements in addressing the balancing issue, they decided to keep the design of the tire a top secret. Blurring out the tire in the video and expressing reluctance to share the details with other speed runners demonstrated their commitment to achieving the world record. They feared that revealing their tire design might give competitors an advantage and raise the bar even higher.
The Long-Awaited Breakthrough
With the of the prop balancer and the carefully balanced tire, the team was hopeful that they had overcome the previous issues. Now, all that was left was to put their creation to the test and attempt to reach the elusive 250mph mark. The world held its breath in anticipation of this groundbreaking moment.
As the article concludes, it leaves readers on the edge of their seats, eagerly waiting to witness the outcome of the 250mph Sausage RC Car project. Will the secret tire design prove to be the key to success? Only time will tell.
The Challenge of Finding Suitable Tires
The quest for speed in the world of remote-controlled cars seems never-ending. With each new project, enthusiasts strive to push the boundaries and achieve new records. One such ambitious project involves a small but mighty vehicle known as the Sausage RC Car. Designed to reach an astounding speed of 250mph, this project requires every component to be top-notch, including the tires.
An Unconventional Solution
The engineers and designers of the Sausage RC Car have encountered numerous challenges along the way. One of the most perplexing problems has been finding tires that can withstand the immense speed and power of this miniature speedster. Traditional rubber tires, although efficient in many applications, have proven to be insufficient for this particular endeavor.
Testing the Limits
To address this issue, the team experimented with various materials and techniques to create the perfect tires for the Sausage RC Car. Initially, they used a familiar substance called pate, which had previously served them well. However, the RPM (revolutions per minute) of the car caused the pate to wear off quickly. Determined to overcome this setback, they opted for an unconventional alternative – hot glue.
A Sticky Solution
Carefully examining the wheel, the team identified the weak points where the pate had a tendency to come off. Placing a small amount of hot glue in these areas, they hoped it would provide the necessary adhesion to keep the tires intact. Through trial and error, they continued to add hot glue until the wheel stopped spinning, indicating a successful fix.
The Best Intentions
Armed with their improvised solution, the team prepared for another test run. With their eyes on the coveted world record, they unleashed the Sausage RC Car at maximum RPM. However, despite their best efforts, the tires eventually succumbed to the immense forces at play, causing the wheel to detach once again.
Disappointed but undeterred, the engineers analyzed the situation to determine the cause of the failure. They discovered that the ESC (electronic speed controller) had cut out during the first attempt, possibly due to remaining vibrations. Undeterred, they made a second attempt and achieved an impressive speed of 15000 RPM, though they suspect it may have been higher. Unfortunately, the radar system failed to capture the exact velocity.
While setbacks are inevitable in projects of this nature, the team remains hopeful. The modified hot glue solution shows promise, and further refinements may yield the desired result. With a combination of perseverance, innovation, and a dash of luck, they believe the Sausage RC Car will eventually conquer the challenges posed by its quest for speed. Until then, the team continues to experiment and dream of the day when their creation will reach 250mph, proudly holding the world record even if for a mere 30 seconds.
Aluminium Servo Saber Delete Kit
Recently, an exciting package arrived for David. It was the Scorch Parts aluminium Servo saber delete kit. The stock unit of the RC car had too much flex in the steering, making it difficult to handle, especially for a car of this size and weight. However, with the new kit installed, the steering became perfectly smooth. The addition of little ball bearings ensured zero slop, enhancing the overall performance of the car.
New Splitter for the Wheels
Another issue that arose was the hexes stripping out of the wheels. The tremendous horsepower of the car caused the hexes to strip off once the power kicked in. Thankfully, M2C Racing had the perfect solution. They provided a new splitter that was fitted onto the wheels. To ensure a secure fit, little drilling jigs were used. These jigs held the wheel in place while a drill bit was used to create a hole for the splitter. The result? A wheel that would never strip off again.
Diversions Three Drive Shafts
The package from the Postman brought even more exciting parts. Perfect Pass sent a couple of diversion three drive shafts. These drive shafts were designed with bigger pins, bigger balls, and a larger diameter shaft. Their robust construction added durability and strength to the car, enhancing its performance on the track.
Bearing Block Mount
Scorch Parts had another innovative piece to offer – a bearing block mount. Though initially designed for the motor mount, the RC car project incorporated two of these pieces, one on each side. The purpose was to ensure stability and minimize the flapping of the long shaft. By dividing the shaft into two shorter ones, the car achieved improved stability during high-speed runs.
Exciting New Developments
The constant arrival of new parts and upgrades for the 250mph Sausage RC Car project never ceases to amaze. The progress in improving the car’s performance is astounding. From the aluminium Servo saber delete kit to the new splitter for the wheels, from the diversion three drive shafts to the bearing block mount, each addition brings the dream of reaching incredible speeds closer to reality.
As we eagerly anticipate further developments, keep an eye out for more surprises in this thrilling RC car project. The quest to push the limits of speed with top-secret tires and innovative upgrades continues. Stay tuned for the next exciting chapter in the 250mph Sausage RC Car project!
Aluminium Knuckles from Scorch Parts
These aluminium knuckles from Scorch parts are of exceptional quality. They are originally designed for the full armor Limitless, but can be retrofitted onto the VTE’s stock armor. The stock armor tends to come loose and cause everything to flop about, but with these knuckles, everything fits together perfectly with zero slop. Additionally, the knuckles come with larger bearings that prevent the inner bearing on the armors from failing, which is a common issue with the stock armor. The larger Allen key provided with the Scorch knuckles ensures a tight fit, preventing rounding off of the key.
Adjustable Cam and Ease of Access
One advantage of these Scorch knuckles is that they allow for easy adjustment of the cam. When the wheel is in place, it becomes impossible to access the cam to make adjustments. However, with these knuckles, simply put a wrench onto the adjustable cam and make the necessary changes. This feature makes it significantly easier to fine-tune the car’s performance.
No Slop with Scorch Parts
In terms of performance, the Scorch parts completely eliminate slop. When comparing them to the original stock armor, it’s clear that the Scorch knuckles offer a superior fit and stability. However, it’s important to note that there is still a slight bit of play in the link. This will need to be addressed later to ensure optimal performance.
Center Drive Shaft Setup
The Center Drive Shaft setup is straightforward and highly effective. All that needs to be done is drilling it into the chassis and putting the cover back on. With this simple modification, the entire four-wheel drive system comes to life and functions seamlessly.
Red Fin Models and the Speed Sausage
At Red Fin Models, the team is currently working on the incredible Speed Sausage project. Jason and Chris are the experts behind this ambitious undertaking. Chris, in particular, has been instrumental in assisting with setting up the radio and calibrating it for optimal performance. With their knowledge and expertise, Red Fin Models is poised to make waves in the world of RC cars.
The Problem with the ESC
This RC car project has hit a snag. The ESC (Electronic Speed Controller) seems to be dead or dying, causing the motor to not function properly. During a recent speed run, the car reached a top speed of 193 mph, but only the back wheels were spinning while the front wheels remained stationary. It appears that the ESC is not providing enough output power, as it only beeps quietly and barely drives the motor, sometimes not at all.
Doubling the Power
With the back wheels receiving double the power, the question arises: how fast will the car go? If all four motors are working properly, it is possible that the car will not only be faster but also more stable. However, before we can test this theory, we need to replace the faulty ESC and calibrate the car.
Installing a New Speed Controller
Back in the shop, a new speed controller is ready to be fitted into the car. Although there was a minor mishap in rounding off some connectors, it is not a big deal. The important thing is getting the new ESC installed and calibrated correctly.
Getting Back into Action
The team quickly changes the connectors and installs the new ESC. The goal is to get the car back in action as soon as possible. With all the LI-pose (lithium-polymer) batteries plugged in, it’s time to test if the new setup works.
Unfortunately, there have been a few incidents of fires in the past with this RC car. However, the team hopes that today’s endeavor will not result in another fire. Master ESC is turned on first, followed by the other ESCs. Now, it’s time to pull the trigger and observe if all the pinion gears turn simultaneously.
Without an or summary, the reader is immediately thrust into the action and complexities of this RC car project. The lack of a or closing remarks leaves the reader hanging, wondering what’s next for the team and their 250mph sausage RC car.
Unveiling the Top Secret Tires for the 250mph Sausage RC Car Project
The moment of truth has arrived for the highly anticipated 250mph Sausage RC Car project. After countless hours of meticulous planning and tinkering, the finishing touch has finally been added the top secret tires. These high-performance tires are the key to unlocking the car’s full potential and achieving record-breaking speeds.
All Systems Go: Ensuring the Perfect Mesh
Before introducing the top secret tires, it was crucial to ensure that all the components of the car were seamlessly integrated. The gears, motors, and wheels needed to work in perfect harmony. The team meticulously meshed these elements, ensuring a smooth and efficient operation. With every turn, they could observe the ideal synchronization that would propel the car towards its ultimate goal.
Unleashing the Beast on the Drag Strip
Equipped with the new and improved wheels, the Sausage RC Car is now ready to hit the renowned Santa Pod drag strip. The team eagerly awaits the opportunity to put their creation to the test and witness its incredible speed capabilities. The thrill of breaking records looms in the air as they prepare to push the car to its limits.
A Tale of Crashes and Rebirth
Even the most ambitious projects are not without their setbacks. The Sausage RC Car project faced its fair share of crashes, leaving the team to grapple with the aftermath. One of the cars, fondly referred to as “my armor, Limitless,” suffered a devastating crash during the last race. Wheels flew off, ESCs malfunctioned, and a number of lights went out. It was a despairing moment, but not one that would deter the team from their pursuit of greatness.
Resilience and Reinforcements
Undeterred by the challenges, the team quickly regrouped and took measures to reinforce the vulnerable components of the car. The m2c wheel hexes were introduced, a crucial addition that would prevent future wheel stripping incidents. With an unwavering determination, they rebuilt the car, equipping it with new drive shafts and replacing the malfunctioning ESCs. The Sausage RC Car was once again ready to conquer the track.
The Moment of Truth
With everything in place, the team is on the verge of the ultimate thrill. The engines are revving, the secret tires are waiting for their moment to shine, and the world records they’re within reach. The team plans to release a video capturing the raw power and speed of the Sausage RC Car, showcasing its potential to break records and redefine what is possible in the world of remote-controlled cars.
A Testament to Ingenuity and Perseverance
The journey of the 250mph Sausage RC Car project embodies the spirit of innovation and the boundless pursuit of excellence. It is a testament to the unwavering dedication of a team that refuses to let setbacks define their success. With the top secret tires at its disposal, this remarkable creation has the potential to revolutionize the world of RC car racing and leave a lasting impression on all who witness its incredible capabilities.