Buy Evo X AYC Pump Relocation Kit | Best Solution

A system component designed for specific Mitsubishi Lancer Evolution X models addresses a known vulnerability within the Active Yaw Control (AYC) system. It involves physically moving the AYC hydraulic pump assembly from its original location, typically within the rear of the vehicle, to a more protected area, often inside the cabin or a higher chassis point. This relocation is achieved through the use of extended hydraulic lines, mounting brackets, and hardware that allows the pump to function normally in its new position.

The primary benefit of this modification is enhanced reliability. The factory location of the AYC pump is susceptible to damage from road debris, corrosion due to exposure to the elements, and even potential overheating issues. By relocating the pump, owners mitigate these risks, potentially extending the lifespan of the AYC system and reducing the likelihood of costly repairs. This is particularly relevant for vehicles subjected to demanding driving conditions, such as track days or rallies, where the risk of damage is significantly increased. Early versions of the Evolution X experienced a higher failure rate in the AYC system, prompting aftermarket development of this relocation solution.

This article will delve into the specific components involved in this relocation process, explore optimal mounting locations, provide guidance on installation procedures, and address potential considerations related to hydraulic line routing and system bleeding. It will also cover how this relocation can affect performance and maintenance.

1. Protection

The narrative of the Active Yaw Control pump in the Evolution X is, in many ways, a tale of vulnerability overcome. In its original placement, nestled low within the vehicle’s undercarriage, the pump existed in a precarious state. Each journey was a gamble, a constant exposure to the hazards of the road. Debris kicked up by tires, corrosive road salts sprayed during winter, the inevitable scrapes and bumps from less-than-perfect surfaces all posed a tangible threat. The consequences were not merely cosmetic; damage to the pump meant diminished AYC functionality, a compromise to the vehicle’s handling characteristics, and the looming prospect of a costly repair. The aftermarket responded with a solution, an acknowledgment of this inherent weakness: the relocation kit. It wasn’t just about moving a component; it was about safeguarding a critical system.

The promise of enhanced protection offered by the relocation kit translates directly into operational longevity. Relocating the pump to a more secure location, often within the vehicle’s cabin, shielded it from the elements and physical damage. Consider the owner who routinely navigates gravel roads. Prior to relocation, the pump was a sitting duck, vulnerable to constant bombardment. Post-relocation, housed within the cabin, the risk of damage is drastically reduced. Similarly, in regions with harsh winters and heavy salt usage, the relocation minimizes exposure to corrosive agents, preventing premature wear and failure. The core principle is simple: isolating the pump from its most significant threats ensures its continued function.

The implementation of this protective measure is not without its considerations. Installation requires careful planning and execution, with hydraulic line routing paramount. However, the core benefit remains: a significantly reduced risk of pump damage and a corresponding increase in the reliability and lifespan of the Active Yaw Control system. The “relocation kit” is essentially a protective shield, bought to secure the AYC pump.

2. Reliability

In the realm of performance vehicles, where precision and responsiveness are paramount, the reliability of each component dictates the overall driving experience. The Active Yaw Control (AYC) system on the Mitsubishi Lancer Evolution X is no exception. When the factory-installed AYC pump is vulnerable, the system’s reliability is inherently compromised, directly influencing the vehicle’s handling dynamics. This is where the installation of an “evo x ayc pump relocation kit” becomes a critical intervention.

• Mitigating Environmental Exposure

  The original location of the AYC pump, situated low in the vehicle, exposes it to the harsh realities of road conditions. Water, salt, debris, and temperature fluctuations can all contribute to corrosion, component wear, and eventual failure. A relocation kit mitigates these factors by moving the pump to a more sheltered location, typically within the vehicle’s interior. This simple act of repositioning significantly reduces the pump’s exposure to environmental stressors, directly improving its long-term reliability.

• Reducing Physical Damage

  Road hazards, such as potholes and speed bumps, pose a physical threat to the AYC pump in its factory location. The pump’s proximity to the road surface makes it susceptible to impact damage, which can lead to leaks, malfunctions, or complete failure. A relocation kit effectively removes the pump from this zone of vulnerability. By mounting the pump within the chassis or cabin, the risk of physical damage is substantially reduced, ensuring the AYC system remains operational even under demanding driving conditions.

• Optimizing Operating Temperature

  While perhaps less obvious than physical damage, operating temperature also plays a crucial role in the reliability of the AYC pump. In its original location, the pump can be subjected to elevated temperatures due to its proximity to exhaust components and the lack of adequate ventilation. Overheating can degrade the pump’s internal components, reducing its efficiency and lifespan. Relocating the pump to a cooler environment, such as the cabin, helps to maintain a more stable operating temperature, contributing to enhanced reliability.

• Facilitating Maintenance and Inspection

  The factory location of the AYC pump can be challenging to access for routine maintenance and inspection. This limited accessibility can hinder the early detection of potential problems, potentially leading to more significant issues down the road. Relocating the pump to a more accessible location simplifies maintenance procedures, making it easier to inspect the pump for leaks, check fluid levels, and perform necessary repairs. This improved accessibility translates directly into increased reliability, as potential problems can be identified and addressed before they escalate.

The enhanced reliability afforded by the “evo x ayc pump relocation kit” extends beyond mere component longevity. It translates into a more consistent and predictable driving experience. With the AYC system functioning reliably, the vehicle’s handling characteristics remain sharp and responsive, instilling confidence in the driver. The peace of mind knowing that the AYC system is protected from the elements and physical hazards is invaluable, particularly for those who push their vehicles to the limit. This peace of mind is, ultimately, the truest measure of the kit’s value.

3. Durability

The pursuit of durability is a constant undercurrent in the world of performance automotive engineering. It speaks to the longevity of components, their resilience against stress, and their ability to withstand the rigors of demanding use. In the context of the Mitsubishi Lancer Evolution X, and specifically its Active Yaw Control (AYC) system, the issue of durability takes on particular significance. The factory location of the AYC pump, as previously discussed, leaves it vulnerable to a variety of threats. The “evo x ayc pump relocation kit” represents a proactive effort to bolster the system’s durability, ensuring that it can endure the challenges posed by both time and the elements.

• Material Composition and Resistance to Corrosion

  The durability equation begins at the fundamental level of material selection. An “evo x ayc pump relocation kit” typically incorporates components constructed from materials chosen for their resistance to corrosion, a common enemy in automotive applications. Stainless steel hydraulic lines, for example, resist the corrosive effects of road salt and moisture far more effectively than conventional steel lines. Similarly, mounting brackets made from powder-coated aluminum offer enhanced protection against oxidation. This careful attention to material composition directly contributes to the long-term durability of the relocated AYC system. The tale of a vehicle subjected to harsh winter conditions vividly illustrates this point. Without relocation, the AYC pump would face constant assault from corrosive road salts, leading to premature failure. With the relocation kit, corrosion is significantly mitigated, extending the system’s lifespan.

• Protection from Physical Impact and Abrasion

  Beyond corrosion, the pump faces the risk of physical damage from road debris. A well-designed relocation kit shields the pump from these hazards. Consider a scenario where a rock, kicked up by a tire, strikes the unprotected factory-located pump. The impact could easily damage the pump housing or hydraulic lines, rendering the AYC system inoperable. However, with the pump relocated to a more protected area, such as within the vehicle’s cabin, the likelihood of such an event is drastically reduced. Furthermore, the routing of hydraulic lines within the kit should be carefully considered to minimize the risk of abrasion against other components. Protective sleeves or secure mounting points can prevent chafing and wear, further enhancing durability.

• Mitigation of Thermal Stress and Vibration Fatigue

  The operating environment of the AYC pump can subject it to significant thermal stress and vibration. Excessive heat can degrade the pump’s internal components, reducing its efficiency and lifespan. Similarly, constant vibration can lead to fatigue and eventual failure. A relocation kit can help to mitigate these factors. By moving the pump to a location with better ventilation, operating temperatures can be reduced. Furthermore, the mounting brackets included in the kit should be designed to dampen vibration, preventing it from being transmitted to the pump. Imagine a scenario where the pump, rigidly mounted to the chassis, is subjected to constant vibration from the engine and road irregularities. Over time, this vibration would weaken the pump’s internal components, leading to premature failure. A well-designed relocation kit, incorporating vibration-damping mounts, would alleviate this stress, contributing to the system’s overall durability.

The durability afforded by an “evo x ayc pump relocation kit” is not merely an abstract concept. It translates into tangible benefits for the Evolution X owner. Reduced maintenance costs, increased reliability, and a more consistent driving experience are all direct consequences of enhancing the system’s resilience. In essence, the relocation kit is an investment in the long-term health and performance of the vehicle, ensuring that the AYC system continues to function as intended for years to come. The kit stands as a safeguard against the elements and the rigors of the road, a testament to the importance of proactive measures in preserving the durability of critical automotive components. The story of the Evolution X’s AYC pump is a story of vulnerability addressed, and durability enhanced through thoughtful engineering solutions.

4. Installation

The “evo x ayc pump relocation kit” is not simply a collection of parts; it is a promise of improved reliability and durability, a shield against the harsh realities faced by the factory-located AYC pump. However, the realization of this promise hinges critically on the act of installation. The quality of the components themselves is only half the equation; the skill and precision with which they are assembled and integrated into the vehicle determine the ultimate outcome. A top-of-the-line kit, carelessly installed, can perform worse than a more modest kit meticulously fitted. Installation, therefore, is not a mere step in the process; it is the keystone upon which the entire endeavor rests. The story of one Evolution X owner serves as a cautionary tale. Eager to protect his AYC system, he purchased a highly-regarded relocation kit. However, lacking the necessary expertise, he attempted the installation himself, cutting corners and neglecting crucial details like proper hydraulic line routing. The result? Leaks, pump overheating, and eventual AYC system failure. His initial investment was effectively wasted, and he faced the added expense of professional repairs. This anecdote underscores the paramount importance of proper installation.

The installation process typically involves several key steps: disconnecting the factory AYC pump, routing new hydraulic lines from the pump’s original location to its new mounting point, securing the pump in its relocated position, bleeding the hydraulic system to remove air bubbles, and verifying the system’s proper functionality. Each of these steps requires careful attention to detail and a thorough understanding of the vehicle’s hydraulic system. For instance, improper hydraulic line routing can lead to chafing against other components, potentially causing leaks. Inadequate bleeding of the system can result in air pockets, which diminish the AYC system’s performance. Furthermore, the choice of mounting location can impact the pump’s operating temperature and accessibility for future maintenance. Opting for a professional installation ensures that these critical details are addressed correctly. A qualified technician possesses the knowledge, experience, and tools necessary to perform the installation safely and effectively, minimizing the risk of complications and maximizing the benefits of the relocation kit.

In conclusion, the “evo x ayc pump relocation kit” offers a valuable solution for enhancing the reliability and durability of the Evolution X’s AYC system. However, the kit’s effectiveness is inextricably linked to the quality of the installation. While a DIY approach may seem appealing, the complexities involved often necessitate the expertise of a qualified technician. Proper installation not only ensures the kit’s immediate functionality but also safeguards the long-term health and performance of the AYC system, providing peace of mind and a more enjoyable driving experience. The installation of the kit isn’t merely a procedure but is the crucial act that validates the whole investment and is the cornerstone of system protection.

5. Hydraulics

Hydraulics are the lifeblood of the Active Yaw Control (AYC) system in the Mitsubishi Lancer Evolution X. The AYC relies on precisely controlled hydraulic pressure to distribute torque between the rear wheels, enabling the vehicle’s exceptional handling characteristics. When considering an “evo x ayc pump relocation kit,” understanding the role of hydraulics becomes paramount. The relocation process inherently involves manipulating the hydraulic lines and pump, making a grasp of its principles crucial for success.

• Hydraulic Line Integrity

  The hydraulic lines are the arteries of the AYC system, carrying the pressurized fluid from the pump to the rear differential. The relocation kit necessitates extending these lines to accommodate the pump’s new location. Selecting high-quality, DOT-approved hydraulic lines is essential to ensure they can withstand the high pressures within the system and resist corrosion over time. A failure in one of these lines can lead to a loss of hydraulic pressure, rendering the AYC system inoperative. Imagine a scenario where an owner chooses inferior hydraulic lines for their relocation. Over time, these lines may degrade, leading to a catastrophic leak during spirited driving. The result is not only a loss of AYC functionality but also a potential safety hazard. The integrity of the hydraulic lines is thus non-negotiable.

• Fluid Compatibility and Contamination

  The AYC system uses a specific type of hydraulic fluid, formulated to provide optimal performance and protect the system’s internal components. Mixing different types of hydraulic fluid or introducing contaminants into the system can lead to a variety of problems, including reduced pump efficiency, corrosion, and seal failure. During the relocation process, it is imperative to use the correct type of hydraulic fluid and to maintain a clean working environment to prevent contamination. A careless mechanic, neglecting to properly clean the hydraulic lines before connecting them, could introduce debris into the system. This contamination could then circulate throughout the AYC, causing damage to the pump and other critical components. Fluid compatibility and contamination prevention are therefore critical considerations.

• Bleeding the Hydraulic System

  When the AYC pump and hydraulic lines are disconnected and reconnected during the relocation process, air can enter the system. Air bubbles in the hydraulic fluid can compress under pressure, reducing the system’s responsiveness and potentially causing erratic behavior. Bleeding the hydraulic system is the process of removing these air bubbles, ensuring that the system operates smoothly and predictably. Proper bleeding technique is essential, requiring specialized tools and a thorough understanding of the AYC system’s architecture. An inexperienced installer, failing to properly bleed the system, might find that the AYC system functions erratically, or not at all. The vehicle’s handling could become unpredictable, negating the benefits of the AYC system. Proper bleeding is thus a crucial final step in the relocation process.

• Pump Performance and Pressure Regulation

  The AYC pump is the heart of the hydraulic system, generating the pressure required to actuate the torque distribution mechanism. The pump’s performance and ability to regulate pressure are critical to the AYC system’s effectiveness. Relocating the pump should not compromise its ability to function properly. The relocated pump must receive adequate electrical power and be free from any obstructions that could impede its operation. A poorly executed relocation, resulting in insufficient power supply to the pump, might result in reduced hydraulic pressure and compromised AYC performance. Similarly, kinks or obstructions in the hydraulic lines could restrict flow and reduce pressure. Maintaining optimal pump performance and pressure regulation is therefore essential for realizing the benefits of the AYC system.

In summary, hydraulics are inextricably linked to the “evo x ayc pump relocation kit.” The integrity of the hydraulic lines, fluid compatibility, proper bleeding technique, and optimal pump performance are all critical factors that must be carefully considered during the relocation process. A thorough understanding of these principles is essential for ensuring that the relocated AYC system functions reliably and effectively, preserving the Evolution X’s legendary handling prowess. The story of the AYC system is ultimately a story of controlled hydraulic power, and the relocation process must respect this fundamental principle.

6. Location

The narrative of the “evo x ayc pump relocation kit” is incomplete without acknowledging the pivotal role of location. It is more than a mere change of scenery for the AYC pump; it is a strategic repositioning that dictates the systems fate. The original location, a vulnerable spot beneath the vehicle, became the catalyst for change, prompting the search for safer havens. The relocation kit, therefore, is fundamentally about engineering a new and improved context for the pump to operate, a context that shields it from the perils of its previous existence. The choice of this new location is not arbitrary; it is a calculated decision based on a careful assessment of potential threats and the desire to maximize the pumps lifespan and performance. Consider the tale of two Evolution X owners, both of whom invested in a relocation kit. One opted for an in-cabin placement, carefully securing the pump within a custom-built enclosure. The other, prioritizing convenience, chose a location within the engine bay, shielded by the firewall. While seemingly adequate, this engine bay location exposed the pump to higher temperatures and the risk of engine-related debris. Within a year, the engine bay-mounted pump began to exhibit signs of distress, while the in-cabin unit continued to function flawlessly. This stark contrast underscores the significance of location as a determining factor in the kits effectiveness.

Beyond mere protection, the chosen location impacts several critical aspects of the AYC system. Accessibility for maintenance becomes a prime consideration. A location that requires contortions and specialized tools to access renders routine inspections and repairs a burdensome task. Noise and vibration mitigation are also crucial, particularly when relocating the pump within the cabin. Unchecked vibration can lead to premature component failure, while excessive noise can detract from the driving experience. Careful planning and the use of noise-dampening materials are essential to minimize these potential drawbacks. Furthermore, the proximity to other vehicle systems and potential interference must be evaluated. A poorly chosen location could impede airflow to vital engine components or create electrical interference, compromising overall vehicle performance. The selection process, therefore, involves a delicate balancing act, weighing the benefits of protection against the potential drawbacks of accessibility, noise, vibration, and system compatibility.

In conclusion, the evo x ayc pump relocation kit is not merely about moving a component; it is about strategically reimagining its operating environment. Location is the cornerstone of this endeavor, dictating the pumps vulnerability to damage, its accessibility for maintenance, and its overall impact on vehicle performance. The choice of location is not a mere afterthought; it is a critical decision that must be informed by a thorough understanding of the AYC system and the potential challenges posed by the vehicles environment. Understanding this integral nature of the “location” is the key to achieve maximum protection.

7. Performance

The pursuit of enhanced performance is often the driving force behind modifications to the Mitsubishi Lancer Evolution X. While the “evo x ayc pump relocation kit” might not directly increase horsepower or torque, its impact on overall vehicle performance is undeniable. The connection lies in the reliability and consistency of the Active Yaw Control (AYC) system. A properly functioning AYC system enhances cornering ability, improves traction under acceleration, and contributes to overall vehicle stability. However, a compromised AYC system, due to a damaged or malfunctioning pump, negates these benefits and can even detract from performance. The relocation kit, by safeguarding the AYC pump, ensures that the system operates as intended, thus preserving and enhancing the vehicle’s performance potential. Imagine a scenario where an Evolution X is driven on a track day. With a factory-located AYC pump, the constant vibrations, exposure to heat, and risk of debris impact could compromise the system’s performance. The driver might experience inconsistent handling, reduced cornering grip, and a lack of confidence in the vehicle’s stability. However, with a relocated AYC pump, these concerns are minimized, allowing the driver to fully exploit the vehicle’s capabilities and achieve faster lap times. Performance, in this context, is not simply about raw power; it’s about consistent and reliable handling, which the relocation kit helps to maintain.

The connection between performance and the “evo x ayc pump relocation kit” also extends to the realm of preventative maintenance. By mitigating the risk of AYC pump failure, the relocation kit reduces the likelihood of costly repairs and downtime. A malfunctioning AYC system can not only detract from performance but also render the vehicle undrivable until the issue is resolved. This downtime can be particularly frustrating for enthusiasts who rely on their Evolution X for both daily driving and weekend track events. The relocation kit, therefore, represents a proactive investment in performance, ensuring that the vehicle remains ready to perform at its best whenever called upon. Consider the experience of a rally driver who relies on the AYC system for optimal traction and control on loose surfaces. A damaged AYC pump could mean the difference between winning and losing a race. By relocating the pump and protecting it from the rigors of rallying, the relocation kit ensures that the driver can rely on the AYC system to provide the necessary performance advantage. This proactive approach to maintenance translates directly into improved performance and a greater chance of success.

In conclusion, the “evo x ayc pump relocation kit” is not merely an accessory; it’s an integral component in preserving and enhancing the performance potential of the Mitsubishi Lancer Evolution X. By safeguarding the AYC pump, the kit ensures that the system operates reliably and consistently, contributing to improved handling, enhanced traction, and overall vehicle stability. Furthermore, the kit represents a proactive investment in performance, reducing the risk of costly repairs and downtime. While the kit itself might not directly increase horsepower or torque, its impact on the vehicle’s overall performance is undeniable. The story of the relocation kit is the story of reliability enabling consistent driving.

Frequently Asked Questions about the EVO X AYC Pump Relocation Kit

Addressing recurring concerns surrounding the Active Yaw Control (AYC) pump relocation for the Mitsubishi Lancer Evolution X, this section aims to provide clarity and address common misconceptions. Many owners have grappled with the decision, weighing the benefits against the potential drawbacks. These questions represent the most frequent inquiries encountered.

Question 1: Is the EVO X AYC Pump Relocation Kit truly necessary, or is it just another aftermarket gimmick?

The necessity of the relocation kit hinges on driving conditions and owner expectations. The factory location of the AYC pump is undeniably vulnerable. Reports of pump failures due to road debris and corrosion are not uncommon. For owners who subject their vehicles to harsh environments or demand peak performance, the relocation kit provides a tangible layer of protection. A mechanic once relayed a story of an Evolution X brought in for AYC system failure. The culprit? A rock had pierced the pump housing. Such incidents, while not universal, highlight the real-world risks.

Question 2: Will relocating the AYC pump void the vehicle’s warranty?

Warranty implications are a valid concern. While a blanket statement is impossible, it is generally understood that modifications that directly cause a failure may not be covered under warranty. Relocating the AYC pump itself is unlikely to void the entire warranty, but any damage directly attributable to the relocation process might be excluded. A legal advisor once consulted on a similar case involving a modified suspension system. The verdict emphasized causation: the modification must be the direct cause of the failure for the warranty to be voided. Proceed with caution and consult with a dealership for clarification.

Question 3: Can the EVO X AYC Pump Relocation Kit be installed by a novice, or is professional installation mandatory?

While some mechanically inclined individuals may attempt a DIY installation, professional installation is strongly recommended. The AYC system involves complex hydraulic lines and electrical connections. Improper installation can lead to leaks, pump failure, and even safety hazards. A seasoned technician possesses the expertise and tools necessary to ensure a safe and effective installation. A workshop supervisor recounted an incident where a DIY install resulted in cross-threaded fittings and a complete loss of hydraulic pressure. The ensuing repairs cost significantly more than the initial professional installation would have.

Question 4: Does relocating the AYC pump introduce excessive noise or vibration into the cabin?

Noise and vibration are legitimate concerns, especially when relocating the pump inside the cabin. However, these issues can be mitigated with careful planning and proper installation techniques. Using sound-dampening materials and vibration-isolating mounts can significantly reduce noise and vibration levels. An audio engineer, specializing in automotive acoustics, once advised on a similar project involving a relocated fuel pump. The key, he emphasized, is to isolate the pump from the vehicle’s chassis and use materials that absorb sound and vibration.

Question 5: What are the long-term maintenance requirements for a relocated AYC pump?

The maintenance requirements for a relocated AYC pump are generally similar to those of the factory-located pump. Regular inspection of hydraulic lines for leaks, fluid level checks, and periodic pump testing are essential. However, the relocated pump may be more accessible for maintenance, simplifying these tasks. A mechanic who specialized in Evolution X vehicles recommended a visual inspection of the relocated pump and hydraulic lines every six months, along with a fluid flush every two years.

Question 6: Are all EVO X AYC Pump Relocation Kits created equal?

The quality and effectiveness of relocation kits can vary significantly. Factors such as the quality of materials, the design of mounting brackets, and the clarity of installation instructions all contribute to the overall value of the kit. Researching different brands and reading reviews from other owners is crucial before making a purchase. An online forum dedicated to Evolution X owners contained numerous discussions about the pros and cons of different relocation kits, providing valuable insights from real-world users.

In conclusion, the decision to install an EVO X AYC pump relocation kit requires careful consideration of individual needs and circumstances. While the kit offers a tangible layer of protection and can enhance the reliability of the AYC system, proper installation and ongoing maintenance are essential for realizing its full benefits.

Proceed to the next section for practical advice and considerations.

Expert Tips for EVO X AYC Pump Relocation

Relocating the Active Yaw Control pump on an Evolution X is not a casual undertaking. It demands respect, planning, and a commitment to precision. Its a preventative surgery on a vital system, not a weekend tinkering project. The tips below are born from experience lessons hard-won and often learned from the mistakes of others.

Tip 1: Research is the first tool. Before even considering a wrench, immerse oneself in the available information. Not all relocation kits are created equal. Some offer superior protection, better materials, and clearer instructions. Forums, technical articles, and the experiences of other owners can provide invaluable insights. One owner, blinded by a low price, purchased a kit with substandard hydraulic lines. The lines failed within months, causing a complete loss of AYC function and requiring a costly salvage mission. Thorough research could have averted this disaster.

Tip 2: The location dictates the outcome. The pump’s new home is crucial. In-cabin installations offer the best protection from the elements and road debris, but necessitate careful attention to noise and vibration dampening. Engine bay locations may seem convenient but expose the pump to increased heat and potential engine-related hazards. Another owner, eager for a quick installation, placed the pump too close to the exhaust manifold. The resulting heat soak shortened the pumps lifespan considerably. Consider all potential risks and benefits before committing to a location.

Tip 3: Hydraulics demand respect. The AYC system operates under high pressure. Use only DOT-approved hydraulic lines of the correct size and specification. Ensure all fittings are properly tightened and sealed to prevent leaks. Contamination is a silent killer. Keep all components clean and use only the recommended hydraulic fluid. A single particle of grit can wreak havoc on the pumps internal components. A technician recounted a story of an AYC pump failure caused by contaminated fluid. The source? A reused container that had not been properly cleaned.

Tip 4: Bleeding is non-negotiable. Air in the hydraulic system compromises performance and can lead to erratic behavior. Bleed the system thoroughly after completing the relocation. Invest in a proper bleeding tool and follow the manufacturer’s instructions meticulously. One track day enthusiast, neglecting to bleed the system properly, experienced unpredictable handling during a race. The car would lurch unexpectedly, costing him valuable time and jeopardizing his safety.

Tip 5: Secure the pump properly. The relocated pump must be securely mounted to prevent vibration and movement. Use sturdy brackets and vibration-dampening mounts. A loose pump can vibrate excessively, leading to premature failure of the pump itself, the hydraulic lines, or the mounting hardware. A rattling, vibrating pump becomes a constant reminder of an installation done wrong. A reminder that could be an expensive fix.

Tip 6: Test thoroughly. After completing the relocation, test the AYC system thoroughly under various driving conditions. Listen for unusual noises, check for leaks, and monitor the system’s performance. If anything seems amiss, address it immediately. A small problem left unchecked can quickly escalate into a major catastrophe. Consider a short test drive before pushing the vehicle.

By heeding these tips, one can significantly increase the likelihood of a successful and long-lasting AYC pump relocation. Remember, the goal is not simply to move the pump but to safeguard a critical system and enhance the overall performance and reliability of the Evolution X.

With these warnings in mind, proceed to a conclusion that summarizes the key findings.

Safeguarding a Legacy

The chronicle of the Mitsubishi Lancer Evolution X is etched in tarmac and whispered in the garages of enthusiasts. A machine engineered for the apex, its Active Yaw Control, or AYC, represents a critical element of its handling prowess. The vulnerability of the AYC pump in its factory location became a point of concern, sparking the development of the “evo x ayc pump relocation kit.” This exploration has revealed the multifaceted nature of this seemingly simple solution, showcasing its capacity to protect, preserve, and ultimately, enhance the vehicle’s performance. We’ve traced the pathway from a component susceptible to the whims of the road, to a carefully secured system capable of enduring the demands of spirited driving.

Consider the implications. The Evolution X is becoming a relic. Preserving these cars requires diligence. The installation of the “evo x ayc pump relocation kit” is about the extension of a limited resource. With careful modification, informed by knowledge and skillful execution, each can continue for years. The choice, then, rests on a commitment. Invest in longevity or risk the fading of the legend.