LT1 Stroker Kit 396 Unleashed Power

LT1 stroker kit 396: Prepare for a thrilling journey into the heart of automotive performance. This comprehensive guide dives deep into the world of high-octane modifications, exploring the potential of transforming your 396 engine with this specialized kit. Get ready to experience the exhilarating rush of enhanced power and performance.

This kit isn’t just about numbers; it’s about transforming the very essence of your engine’s character. We’ll explore its components, the impressive performance gains, and the crucial considerations for installation, tuning, and long-term maintenance. Expect a detailed breakdown of costs, comparisons to other upgrades, and, crucially, a safety-first approach to this powerful modification.

Introduction to LT1 Stroker Kit 396

An LT1 stroker kit for a 396 cubic inch engine is a performance enhancement package that modifies the engine’s internal components to increase its displacement and horsepower. Essentially, it’s a complete overhaul that replaces key parts of the engine’s internals, resulting in a more powerful engine. These kits are designed to work seamlessly with the original LT1 engine block, allowing for a relatively straightforward upgrade path.The LT1 stroker kit is crucial for enthusiasts seeking a significant performance jump without needing to entirely swap out their engine.

The 396 cubic inch displacement, while a significant engine size, can be further optimized to unleash more power with a well-designed stroker kit. This upgrade offers significant performance gains, but it’s important to weigh the benefits and drawbacks before committing to the project.

Key Components of an LT1 Stroker Kit

The core components of an LT1 stroker kit typically include upgraded pistons, connecting rods, and crankshaft. These components are meticulously engineered to handle the increased stress and demands of a higher displacement engine. Often, the kit also includes a new set of bearings, along with modified or new cylinder heads for improved airflow. Careful selection of these components is crucial for the kit’s long-term reliability and performance.

Benefits of Installing an LT1 Stroker Kit

Installing an LT1 stroker kit in a 396 cubic inch engine offers several notable advantages. Increased displacement directly translates to higher horsepower and torque output. This results in improved acceleration, better top-end speed, and enhanced overall driving experience. The stroker kit also often allows for greater tuning flexibility, enabling further optimization of the engine’s performance. However, potential benefits should be weighed against potential drawbacks.

Drawbacks of Installing an LT1 Stroker Kit

The installation of an LT1 stroker kit isn’t without its drawbacks. The increased engine displacement often necessitates a corresponding upgrade in the transmission, cooling system, and exhaust system to handle the increased load. Furthermore, the cost of the stroker kit itself, along with the associated labor and potential need for additional modifications, can be substantial. The increased complexity also adds to the installation time and potential for errors.

Comparison of Different LT1 Stroker Kit Brands

Brand	Key Features	Price (Estimated)
Brand A	High-quality forged components, comprehensive warranty, excellent customer support.	$3,500 – $4,500
Brand B	Budget-friendly option with reliable components, good for beginners or those on a tighter budget.	$2,500 – $3,500
Brand C	Customizable options with advanced features for maximum performance.	$4,500 – $6,000

Note: Prices are estimates and may vary based on specific components and options. The table illustrates a range of options to consider when choosing a stroker kit. Each brand will have its own unique set of strengths and weaknesses.

Engine Performance Enhancements

A stroker kit for an LT1 396 breathes new life into the engine’s performance potential. It’s like giving your muscle car a powerful, meticulously crafted upgrade. This section delves into the specific performance gains, modifications, and the overall impact on the engine’s character.The LT1 stroker kit transforms the engine’s powerband, delivering a noticeable increase in both horsepower and torque across a wider RPM range.

This translates to a more responsive and engaging driving experience, especially in higher gears. Consider this: a stock LT1 396 might feel somewhat sluggish above 5,000 RPM, whereas a stroker kit often unlocks a more spirited, and sustained, power delivery well into the 6,000 RPM range.

Horsepower and Torque Gains

The precise horsepower and torque gains depend significantly on the specific stroker kit used and the overall build quality. However, gains in the range of 50-100 horsepower and 75-150 lb-ft of torque are commonly reported. Real-world examples demonstrate that with careful tuning and complementary upgrades, a 396 stroker engine can achieve impressive performance numbers exceeding 450 horsepower. This enhanced output is a result of the increased displacement and the optimized engine configuration.

Impact on RPM Range and Redline

A stroker kit inherently increases the engine’s RPM range and redline. This change is often accompanied by an enhanced feeling of power and responsiveness. The ability to reach higher RPMs is crucial for performance enthusiasts seeking optimal acceleration and spirited driving. This expanded operating range is achieved by increasing the crankshaft’s stroke, altering the engine’s dynamic balance, and modifying the overall configuration.

Expect a noticeably quicker acceleration and a more energetic driving experience in higher gears.

Comparison with Stock LT1 396 Engine

The stock LT1 396 engine is a solid performer, but a stroker kit elevates its performance significantly. The stroker kit offers improved acceleration, peak torque at higher RPMs, and a broader powerband. This difference can be noticeable in everyday driving and especially during spirited acceleration. Consider the difference between a smoothly accelerating car and one with a powerful surge of power when pressing the pedal.

Modifications to Fuel, Ignition, and Cooling Systems

Optimizing the fuel, ignition, and cooling systems is crucial for maximizing the performance of a stroker kit. A stroker kit’s increased displacement demands a fuel system capable of delivering the necessary fuel. Similarly, a higher RPM range and greater power output necessitate a more responsive ignition system. The cooling system must be adequately sized to handle the increased heat generation from the higher operating temperatures.

A properly tuned and upgraded fuel system can deliver more precise fuel mixtures, a critical aspect of the engine’s performance.

Impact on Power Delivery Characteristics

The stroker kit alters the engine’s power delivery characteristics, transitioning from a torque-rich powerband in the lower RPM range to a more horsepower-oriented powerband in the mid-to-high RPM range. The power delivery becomes more linear and consistent across the entire RPM range, leading to a smoother and more enjoyable driving experience. This results in a powerful, responsive, and enjoyable driving experience, where the engine delivers an engaging feel across various RPMs.

Installation and Tuning Procedures: Lt1 Stroker Kit 396

This section details the critical steps for installing and tuning your LT1 stroker kit, ensuring optimal performance and longevity. Proper installation is key to unlocking the full potential of your upgraded engine. Careful attention to detail throughout the process is crucial.

Component Installation Procedures

The installation process involves several key components, each requiring meticulous attention to detail. Thorough preparation and adherence to the manufacturer’s instructions are paramount.

• Engine Mounting: Secure the engine mounts, ensuring proper alignment and torque specifications. Incorrect torque can lead to engine vibration or premature failure of the mounts. Precisely follow the manufacturer’s torque specifications for each bolt.
• Wiring Harness Installation: Carefully connect the wiring harness to the new components, ensuring all connections are secure and properly grounded. This is critical for the proper functioning of the engine’s electrical system. Double-check every connection to prevent electrical issues.
• Fuel System Integration: Connect the fuel lines, ensuring they are properly routed and secured. Ensure a tight seal to prevent fuel leaks. Use appropriate fuel line clamps to avoid potential problems.
• Crankcase Ventilation: Ensure the crankcase ventilation system is properly installed and functional. A properly functioning crankcase ventilation system prevents harmful vapors from entering the engine compartment and keeps the engine running smoothly. Check all connections for leaks.
• Exhaust System Installation: Install the exhaust system with precise attention to the mounting points. Properly secure the exhaust pipes to avoid exhaust leaks or damage to the exhaust system.

Critical Tools and Equipment

A comprehensive set of tools is necessary for the successful installation. This ensures efficient and accurate installation.

• Torque Wrench: Essential for applying precise torque to engine bolts and components. Incorrect torque can damage the engine.
• Socket Set: A wide range of sockets to access various fasteners and components. Proper socket selection prevents damage to the engine.
• Wrench Set: Essential for tightening nuts and bolts, especially those that are difficult to access. A comprehensive wrench set allows for various fastener tightening.
• Measuring Tools: Calipers, rulers, and other measuring instruments to ensure accurate component alignment. Accurate measurements prevent misalignment issues.
• Engine Hoist or Jack Stands: Necessary to securely lift and support the engine during installation and maintenance. Using an engine hoist or jack stands provides safety and stability.

Engine Tuning Procedures

Post-installation engine tuning is critical for optimal performance. These steps ensure the engine functions correctly and efficiently.

• Ignition Timing Adjustment: Adjust the ignition timing to the specified parameters for the stroker kit and engine type. Incorrect ignition timing can result in decreased power and poor fuel efficiency.
• Fuel Mixture Adjustment: Adjust the fuel mixture based on the engine’s load and RPM. Use a fuel pressure gauge and an appropriate diagnostic tool to calibrate the fuel system for maximum power and fuel economy.
• Spark Plug Inspection: Inspect and replace spark plugs if necessary, ensuring they are properly gapped. Damaged spark plugs can negatively affect the engine’s performance.
• Performance Testing: Thoroughly test the engine’s performance across a range of operating conditions. This testing helps identify and resolve any issues that may arise during the installation or tuning process.

Compatibility and Modifications

Giving your LT1 a 396 stroker kit upgrade is a fantastic way to unleash its hidden power, but it’s not a simple swap. Careful consideration of compatibility with your existing vehicle is paramount. This section dives into the necessary modifications to ensure a seamless and powerful integration.

Vehicle Compatibility

The LT1 stroker kit’s compatibility is highly dependent on the specific vehicle. While many platforms can accommodate the upgraded engine, crucial factors like the chassis design, engine bay space, and existing mounting points influence the feasibility of the installation. Proper assessment of the vehicle’s mechanical limitations and structural integrity is essential before undertaking any modifications. For example, a compact sports car might have challenges integrating a larger engine compared to a larger SUV.

Transmission Modifications

Upgrading to a 396 stroker kit often demands a transmission upgrade. The increased torque output necessitates a transmission capable of handling the added stress. A strong, robust transmission is vital for preventing damage and ensuring smooth, reliable operation. For instance, the factory transmission might not be suitable for the increased power output of a stroker kit, leading to slippage or failure.

Drivetrain Modifications

The stroker kit’s impact extends beyond the engine to the vehicle’s drivetrain. The increased power output demands a re-evaluation of the existing drivetrain components, including the driveshaft, axles, and differential. This is to ensure they can handle the increased torque without failure. Appropriate upgrades or replacements might be necessary to prevent damage during operation.

Exhaust System Modifications

The enhanced engine performance necessitates modifications to the exhaust system. The stroker kit’s increased output produces more heat and exhaust gasses, requiring a system capable of efficiently managing these increases. This often includes larger diameter exhaust pipes and strategically positioned mufflers to improve airflow and reduce backpressure. Consider an exhaust system designed for the specific engine configuration to maximize performance and minimize stress.

Compatible Transmission Options

Transmission Type	Compatibility Notes
Automatic Transmission (e.g., upgraded GM 4L80E)	Requires careful selection of a transmission with sufficient torque capacity.
Manual Transmission (e.g., Tremec TKO600)	A manual transmission provides more control and often requires a clutch upgrade.
Other Custom Transmissions	Consult with a transmission specialist to determine optimal choices.

Maintenance and Troubleshooting

This section provides a roadmap to keeping your LT1 stroker kit 396 performing at its peak and identifying potential problems quickly. Proper maintenance is key to longevity and maximizing the power of your upgraded engine. We’ll cover everything from regular checks to troubleshooting common issues, empowering you to be a confident owner.

Specific Maintenance Procedures

Regular maintenance is crucial for any engine, especially a high-performance one. Consistency in these procedures will significantly extend the life of your LT1 stroker kit. This includes regular oil changes, filter replacements, and coolant checks. The frequency of these procedures should be guided by the manufacturer’s recommendations for high-performance engines, which may differ from standard recommendations. Crucially, always use high-quality synthetic oil appropriate for high-performance applications.

A well-maintained engine translates to fewer breakdowns and a more enjoyable driving experience.

Potential Problems After Installation

Several issues might surface after installing the stroker kit. These can range from minor annoyances to more serious concerns. Common problems include oil leaks, cooling system issues, and electrical malfunctions. Proper diagnostics are essential for identifying the root cause. Thorough visual inspections, combined with the guidance of your owner’s manual and online resources, will help determine the nature of the problem.

Troubleshooting Common Issues

Troubleshooting is a vital skill for any enthusiast. Addressing issues like engine overheating or performance problems promptly can prevent significant damage. Overheating is often linked to a malfunctioning cooling system, a blocked radiator, or a failing thermostat. Performance problems might stem from issues with fuel delivery, ignition timing, or even air intake restrictions. A systematic approach, involving checking fluid levels, inspecting hoses, and using diagnostic tools, can help pinpoint the source of the problem.

Recommended Maintenance Items

Regular maintenance plays a vital role in preserving the performance and longevity of your stroker kit. It’s not just about preventing problems; it’s about optimizing performance.

• Oil Changes: Schedule oil changes more frequently than for a standard engine. This is vital to maintain lubrication and prevent wear and tear on critical engine components. Use the highest quality synthetic oil appropriate for high-performance engines.
• Coolant Checks: Regular coolant checks are crucial. Low coolant levels can lead to overheating. Ensure the coolant is properly mixed and the system is adequately pressurized. Use coolant specifically designed for high-performance engines to prevent corrosion.
• Air Filter Replacement: Keep the air filter clean and replace it regularly. A dirty air filter restricts airflow, leading to reduced engine performance. This is especially important for high-performance engines. Check the manufacturer’s recommendations for replacement intervals.
• Spark Plug Inspection: Inspect and replace spark plugs regularly, following the manufacturer’s guidelines. Damaged or worn spark plugs can significantly impact engine performance. A healthy spark is key to efficient combustion.
• Fluid Checks: Regular checks of all fluids (oil, coolant, transmission fluid, brake fluid) are essential. Low fluid levels can lead to significant engine damage. Use quality fluids appropriate for your vehicle.

Cost Analysis

Transforming your LT1 into a 396 stroker isn’t just about horsepower; it’s about understanding the financial commitment. This section details the multifaceted costs involved, from the initial parts to labor and potential modifications, providing a clear picture of the total investment.

Part Costs Breakdown

The heart of the stroker kit lies in its components. Expect significant costs for the kit itself, including the crankshaft, connecting rods, pistons, and bearings. High-quality components are crucial for long-term reliability and performance. Researching and comparing different brands and quality levels will help you make an informed decision. Additionally, the cost of necessary gaskets, seals, and other supporting parts should be factored in.

Engine oil and coolant should be planned for as well.

Labor Costs and Modifications

Professional installation significantly impacts the overall budget. Consider the time required for disassembly, installation, and fine-tuning. The labor cost can vary depending on the mechanic’s experience, location, and the complexity of the project. Modifications like upgraded ignition systems, fuel injectors, or exhaust systems can add to the overall cost. In some cases, engine management systems may need adjustments, adding to the labor costs.

It’s vital to get detailed quotes from mechanics before committing to the installation.

Comparison with Other Engine Upgrades

Comparing a stroker kit to other engine upgrades offers a broader perspective. For instance, a supercharger or turbocharger installation can be more expensive upfront, but may offer a faster return on investment if the budget permits. A complete engine swap may seem like a significant cost upfront but could result in a greater overall improvement in power. The choice often depends on your budget and desired performance gains.

Cost Comparison Table

Engine Upgrade	Part Cost (Estimated)	Labor Cost (Estimated)	Total Cost (Estimated)
LT1 Stroker Kit (396)	$4,000 – $6,000	$1,500 – $3,000	$5,500 – $9,000
Supercharger Upgrade	$3,000 – $5,000	$1,000 – $2,000	$4,000 – $7,000
Turbocharger Upgrade	$4,500 – $7,000	$1,500 – $3,000	$6,000 – $10,000
Complete Engine Swap	$6,000 – $10,000	$2,000 – $4,000	$8,000 – $14,000

Note: These figures are estimations and can vary significantly based on specific components, labor rates, and geographic location.

Safety Considerations

Transforming your LT1 into a 396 stroker is an exciting project, but safety should always be paramount. Proper precautions during installation and maintenance are crucial to preventing accidents and ensuring a smooth, successful build. Ignoring these safety measures can lead to serious injuries or damage to the engine and surrounding components. Let’s dive into the vital steps to ensure a safe and rewarding experience.

Essential Safety Precautions

This section details the critical safety measures that must be followed throughout the entire process, from initial planning to final tuning. Adhering to these guidelines minimizes the potential risks involved in working with automotive engines.

• Protective Gear: Always wear appropriate safety gear, including safety glasses, gloves, and closed-toe shoes. Eye protection safeguards against flying debris, while gloves protect hands from potential cuts and burns. Robust footwear prevents slips and falls in the workshop environment.
• Proper Ventilation: Ensure adequate ventilation in the workspace. Working in a well-ventilated area reduces exposure to harmful fumes and gases that might be released during engine work. Consider using exhaust fans or working outdoors when feasible.
• Disconnect the Battery: Before performing any work on the engine, disconnect the negative terminal of the battery. This prevents accidental electrical shocks and safeguards against unintended starting of the engine.
• Secure the Workspace: Keep the workspace organized and free of obstructions. A cluttered area increases the risk of slips, trips, and falls. Ensure all tools and components are properly stored and secured.

Potential Risks and Hazards

Recognizing potential hazards is key to minimizing risks. Understanding the potential dangers involved allows for proactive measures to be taken.

• Sharp Tools and Components: Working with sharp tools and engine components requires extra caution. Handling these tools with care and using protective gear will help prevent cuts and injuries. Always check the condition of tools and components before use. Ensure they are free of damage and sharp edges.
• Hot Surfaces: Engine components can reach high temperatures during operation and even during the installation process. Allow sufficient cooling time before handling hot components to avoid burns. Use appropriate heat-resistant tools and gloves for tasks involving hot parts.
• Exhaust Fumes: Working with engine parts and fluids may release harmful exhaust fumes. Ensure adequate ventilation to prevent inhalation of these fumes and safeguard respiratory health. Using respirators is recommended in situations with significant fume exposure.

Safety Checklist

A comprehensive checklist is a vital tool for ensuring a safe installation. It helps to organize tasks and ensures nothing is overlooked. Use this checklist as a guide throughout the entire installation and maintenance process.

1. Pre-installation Checklist: Verify all necessary tools and equipment are available and in good working order. Ensure adequate ventilation is present and protective gear is ready. Double-check that the battery is disconnected.
2. Installation Procedures: Follow all manufacturer instructions carefully and systematically. Adhere to proper procedures to avoid accidents and ensure the installation is done correctly.
3. Post-installation Checklist: Verify that all components are securely installed. Check for any signs of damage or leakage. Thoroughly inspect the engine and related systems.
4. Maintenance Procedures: Establish a maintenance schedule to inspect the engine and related systems regularly. Adhere to all manufacturer recommendations for fluid changes and component checks.

Performance Comparisons

Unleashing the beast within your 396 engine often involves a delicate dance of upgrades, each promising a different step on the performance ladder. A stroker kit, like the LT1 396 stroker, aims to amplify the engine’s heart, pushing it beyond its stock limits. But how does this compare to other popular performance enhancements? Let’s delve into the comparative landscape.The performance gains from an LT1 stroker kit aren’t isolated; they interact with other engine modifications.

A well-tuned stroker kit will undoubtedly show impressive gains, but the real magic happens when combined with other enhancements, like upgraded exhaust systems or intake manifolds. Understanding these interactions is crucial for achieving the best possible results.

Comparison of LT1 Stroker Kit to Other Upgrades, Lt1 stroker kit 396

This section delves into the comparative analysis of the LT1 stroker kit against other popular performance upgrades for a 396 engine. Understanding the pros and cons of each is vital for informed decision-making.

• Turbocharging: Turbochargers introduce forced induction, dramatically increasing airflow and power output. Pros include substantial power gains, especially at higher RPMs. Cons include increased complexity, potential for increased maintenance, and the need for careful tuning to prevent damage.
• Supercharging: Similar to turbocharging, superchargers employ a mechanical compressor to force air into the engine. Pros include immediate power gains across the RPM range, often with less complexity than turbo setups. Cons include potential for higher operating temperatures, increased maintenance, and cost.
• Head Modifications: Upgrading cylinder heads can significantly increase airflow and combustion efficiency. Pros include improved breathing, higher compression ratios, and better overall engine performance. Cons include potentially higher cost and the need for matching components (camshaft, pistons) to avoid issues.
• Exhaust System Upgrades: Improved exhaust systems increase the flow of exhaust gases, leading to increased power and a better exhaust note. Pros include improved exhaust flow and power. Cons include the need for a properly designed system to prevent backpressure, and may not be as significant a performance boost as other upgrades.

Performance Gains and Losses

Performance gains from any upgrade depend on the specific components, the engine’s baseline condition, and the tuning approach. A well-executed stroker kit, when properly matched to other components, can deliver noticeable gains in horsepower and torque across the entire power band.

• LT1 Stroker Kit: This upgrade typically results in a significant increase in horsepower and torque, particularly in the mid-range and higher RPM range, due to the increased displacement and potentially enhanced compression ratio. The specific gains depend on the specific kit, supporting components, and tuning.
• Turbo/Supercharging: Turbo/superchargers offer potentially the largest gains in power and torque. However, these upgrades often come with a trade-off of increased complexity, maintenance, and potential damage if not carefully managed.
• Head Modifications: These upgrades offer substantial gains in horsepower and torque through improved airflow and efficiency, particularly at higher RPMs. The precise gain depends on the head design and other components.
• Exhaust Upgrades: Exhaust upgrades often provide modest gains in power, primarily through reducing backpressure and improving exhaust flow. The gains may not be as dramatic as other upgrades.

Performance Metrics Comparison

A table comparing different upgrade options with typical performance metrics provides a clear overview:

Upgrade	Horsepower (Estimated)	Torque (Estimated)	Pros	Cons
LT1 Stroker Kit (396)	450-500 hp	450-500 lb-ft	Significant power gain, improved mid-range torque	Costly, requires careful tuning, and may not be optimal for all driving styles.
Turbocharged (396)	550-700 hp	550-750 lb-ft	Potentially highest gains in power	Increased complexity, maintenance, and potential for damage
Supercharged (396)	500-650 hp	500-650 lb-ft	Immediate power gains across the RPM range	Increased maintenance, potential for higher operating temperatures
Head Modifications (396)	400-450 hp	400-450 lb-ft	Improved breathing and efficiency	Higher cost, matching components required

Note: Estimated values are approximate and may vary depending on specific components and tuning.

Visual Representations

Unleashing the beast within your LT1 stroker kit 396 requires a deep understanding of its visual anatomy. Visualizing the components, their interplay, and the installation process is crucial for a successful build. This section will delve into the key components, their functions, and how they work together to transform your engine.

LT1 Stroker Kit Components

The LT1 stroker kit 396 isn’t just a collection of parts; it’s a meticulously engineered system. Each component plays a vital role in the enhanced performance and reliability. The core components include: the crankshaft, connecting rods, pistons, and the custom-designed cylinder heads, designed to withstand the increased power output. Each component is meticulously selected and designed for optimal performance.

• Crankshaft: The heart of the engine, the crankshaft converts the reciprocating motion of the pistons into rotational power. A stroker kit often features a custom crankshaft to accommodate the increased stroke length. This modified crankshaft ensures smooth power delivery across the RPM range. Visualize a robust, forged crankshaft, meticulously balanced for smooth operation.
• Connecting Rods: These rods connect the pistons to the crankshaft, transferring the force generated by the combustion process. High-strength, forged connecting rods are crucial for handling the higher loads and stresses in a stroker kit engine. Visualize these rods as powerful, precisely engineered linkages.
• Pistons: These components compress the fuel-air mixture and create the force that drives the crankshaft. High-performance pistons with superior material properties are necessary for withstanding the increased pressure and heat generated by the stroker kit. Visualize pistons as precision-machined, heat-resistant components.
• Cylinder Heads: The cylinder heads are critical for efficient combustion. A stroker kit frequently includes custom cylinder heads with optimized ports and chambers to maximize airflow and fuel delivery. Visualize these heads as intricately sculpted, performance-focused components.

Installation Process Illustrations

A visual guide to the installation process is invaluable. The following illustrations provide a detailed breakdown of the assembly steps, highlighting potential pitfalls and crucial considerations.

1. Crankshaft Installation: Carefully align the crankshaft with the main bearings and secure it using the appropriate bolts. Ensure proper torque values are followed to prevent damage. Visualize a meticulously aligned crankshaft, snugly seated in its housing.
2. Connecting Rod Installation: Each connecting rod must be correctly installed in its respective piston and crankshaft position. Visualize each rod as precisely positioned, securely fastened.
3. Cylinder Head Assembly: Proper gasket application and torque sequences are crucial for maintaining compression and sealing. Visualize the cylinder heads as tightly sealed components, crucial for maintaining engine integrity.

Component Image Descriptions (Conceptual)

Imagine a series of images:

• Image 1: A close-up view of the stroker crankshaft, showcasing its forged construction and balanced design. Note the precise machining and markings.
• Image 2: A side-by-side comparison of a stock LT1 crankshaft and the stroker crankshaft, highlighting the increased stroke length.
• Image 3: A detailed view of a connecting rod, emphasizing its high-strength material and precise machining.
• Image 4: An exploded view of the cylinder head, showcasing the intricate port design and valve placement.