Woodworking Shaper vs Router: Which Tool is Right for Your Workshop? Woodworking Insights, July 15, 2024 When it comes to woodworking, choosing the right tools can make all the difference in the quality and efficiency of your projects. Two of the most commonly used tools for shaping and cutting wood are the shaper and the router. While both are essential for creating precise cuts and detailed designs, they each have their own unique strengths and limitations. In this guide, we’ll explore the differences between woodworking shapers and routers, their respective advantages and disadvantages, and which tool is best suited for specific tasks. What is a Woodworking Shaper? A woodworking shaper, often simply called a shaper, is a stationary, heavy-duty machine used to shape wood. It is an essential tool in a woodworker’s arsenal, especially for those who engage in complex and large-scale projects. Design and Structure A shaper typically consists of a large, flat table with a vertical spindle protruding from the center. This spindle can accommodate various cutter heads and bits, which rotate at high speeds to shape the wood. The table provides ample support and stability for the workpiece, allowing for precise cuts and intricate designs. Functionality The primary function of a shaper is to mold and shape wood edges and surfaces. It excels in creating profiles, grooves, and decorative edges, making it ideal for producing detailed moldings, cabinet doors, and furniture components. The versatility of the shaper lies in its ability to use a wide range of cutters, from simple straight bits to complex profile cutters, allowing for endless creative possibilities. Key Features Power and Speed: Shapers are known for their powerful motors and high-speed capabilities, often reaching up to 10,000 RPM. This power allows them to cut through dense hardwoods and large stock with ease. Adjustable Spindle: The spindle height is adjustable, enabling woodworkers to make precise depth cuts. Additionally, many shapers come with tilting spindles for angled cuts. Interchangeable Cutter Heads: Shapers use various cutter heads that can be easily swapped out to achieve different profiles and shapes. This interchangeability is a significant advantage over other tools like routers. Large Table Surface: The expansive table provides stability and support, essential for handling large workpieces and ensuring accuracy. Featherboards and Hold-Downs: These safety features help keep the workpiece in place, preventing kickback and ensuring consistent cuts. Applications Woodworking shapers are used for a variety of tasks, including: Edge Shaping: Creating detailed edges on tabletops, doors, and panels. Grooving and Slotting: Cutting grooves and slots for joints and decorative purposes. Raised Panels: Forming raised panel doors for cabinetry. Molding: Producing intricate moldings and trim pieces. Joinery: Cutting precise joints such as tenons and dovetails. Advantages Precision and Consistency: The stability and power of a shaper allow for highly precise and consistent cuts. Versatility: With the ability to use various cutter heads, shapers can perform a wide range of tasks. Durability: Built to withstand heavy use, shapers are durable and long-lasting, making them a good investment for serious woodworkers. Considerations While shapers are powerful and versatile, they also come with certain considerations: Cost: Shapers tend to be more expensive than routers, both in terms of initial purchase and the cost of cutter heads. Space: They require significant workshop space due to their size. Learning Curve: Operating a shaper can be more complex than using a router, necessitating a steeper learning curve. What is a Router? A router is one of the most versatile and widely used tools in woodworking. It is a handheld or table-mounted tool designed to hollow out or shape various materials, primarily wood. Routers are indispensable in woodworking shops due to their flexibility, ease of use, and the variety of tasks they can perform. Design and Structure A typical router consists of a motor housing, a base, and a collet that holds various bits. The motor spins the bit at high speeds, enabling it to cut, trim, and shape wood. Routers come in two main types: fixed-base and plunge routers. Fixed-Base Routers: In this type, the router’s base is fixed in place, which makes it suitable for edge work and applications requiring consistent depth cuts. Plunge Routers: Plunge routers allow the user to lower the bit into the wood from above, making them ideal for cutting mortises, grooves, and other internal cuts. Functionality Routers excel at shaping edges, cutting joinery, and creating intricate patterns. The tool’s versatility is enhanced by a wide variety of bits available, each designed for specific tasks such as straight cutting, profiling, dovetailing, and trimming. Key Features Speed Control: Many routers feature variable speed controls, allowing users to adjust the RPM based on the material and bit being used. This flexibility helps prevent burning and ensures clean cuts. Depth Adjustment: Precise depth adjustment mechanisms enable users to set the cutting depth accurately, essential for detailed and consistent work. Interchangeable Bits: Routers can accommodate a wide range of bits, from straight bits to complex profile bits, making them highly adaptable to different tasks. Ergonomic Design: Routers are designed to be handheld, with ergonomic grips to reduce user fatigue and improve control. Dust Collection: Many routers come with built-in dust collection ports to keep the work area clean and improve visibility. Applications Routers are used in various woodworking tasks, including: Edge Profiling: Creating decorative edges on tabletops, shelves, and doors. Grooving and Dados: Cutting grooves and dados for joints, shelves, and panels. Joinery: Making precise joints such as dovetails, rabbets, and mortises. Inlay Work: Routing intricate patterns and inlays for decorative purposes. Trimming: Trimming laminate, veneers, and edges flush with the substrate. Template Work: Following templates to create consistent shapes and patterns. Advantages Versatility: The router’s ability to handle a wide range of bits makes it suitable for numerous woodworking tasks. Portability: Handheld routers are portable and can be used in various positions, making them convenient for both workshop and on-site work. Ease of Use: Routers are generally easy to learn and use, with a relatively short learning curve. Affordability: Compared to shapers, routers are typically more affordable, both in terms of the initial purchase and the cost of bits. Considerations While routers are highly versatile and useful, there are some considerations to keep in mind: Power: Routers are less powerful than shapers, which can be a limitation when working with large or dense materials. Stability: Handheld routers may lack the stability of a shaper, potentially affecting precision, especially on larger workpieces. Noise and Vibration: Routers can be noisy and produce significant vibration, requiring proper hearing protection and a steady hand. Key Differences Between Shapers and Routers When deciding between a woodworking shaper and a router, understanding their key differences is crucial. Both tools are designed to shape and cut wood, but they have distinct characteristics, strengths, and limitations that make them suitable for different applications and types of projects. 1. Design and Structure Shaper: Stationary Machine: A shaper is a large, stationary machine designed to be fixed in one place in a workshop. Heavy-Duty Construction: Shapers are built for durability and stability, featuring robust construction to handle heavy use. Vertical Spindle: The cutting tool is mounted on a vertical spindle, which is adjustable for height and often tilt. Large Table Surface: The expansive table provides ample support for large workpieces, enhancing precision and stability. Router: Handheld or Table-Mounted: Routers are typically handheld but can also be mounted on a router table for increased stability and versatility. Lightweight and Portable: Routers are designed for portability and ease of use in various positions and locations. Collet System: The bit is held in place by a collet, which is tightened with a wrench. Compact Base: The base is smaller and more compact compared to a shaper, suitable for detailed and smaller-scale work. 2. Power and Speed Shaper: High Power: Shapers are equipped with powerful motors, often ranging from 1.5 to 5 horsepower (HP) or more, making them suitable for heavy-duty tasks. Lower Speed: Shapers typically operate at lower speeds, usually around 7,000 to 10,000 RPM, but the large cutter heads compensate for the lower speed with higher cutting power. Router: Moderate Power: Routers generally have motors ranging from 1 to 3.25 HP, sufficient for a wide range of woodworking tasks. High Speed: Routers operate at higher speeds, often between 8,000 to 25,000 RPM, allowing for clean, precise cuts, especially with smaller bits. 3. Cutter Heads and Bits Shaper: Interchangeable Cutter Heads: Shapers use large, interchangeable cutter heads that can create a variety of profiles and shapes. Custom Cutters: Shaper cutters can be custom-made for specific profiles, offering high flexibility for unique designs. Larger Diameter: The cutter heads are typically larger in diameter, which allows for smoother cuts on large surfaces. Router: Variety of Bits: Routers use a wide range of small, interchangeable bits designed for specific tasks such as straight cuts, edging, grooving, and profiling. Standardized Bits: Router bits are standardized and widely available, making it easy to find and replace bits as needed. Smaller Diameter: Router bits are smaller in diameter, making them suitable for detailed and intricate work. 4. Versatility and Applications Shaper: Ideal for Large-Scale Projects: Shapers are best suited for large-scale projects and tasks that require heavy-duty cutting and shaping. Complex Profiles and Molding: They excel in creating complex profiles and moldings, making them ideal for cabinet making, door frames, and large furniture components. Consistent Production: Shapers are well-suited for repetitive tasks and high-volume production, ensuring consistency and precision. Router: Portable and Versatile: Routers are highly versatile and portable, suitable for a wide range of tasks from detailed edge work to cutting joinery. DIY and Small Projects: Ideal for DIY enthusiasts and small to medium-scale projects, routers are perfect for hobbyists and small workshop operations. Template Work and Inlays: Routers excel in template work, inlays, and detailed decorative elements, offering precision and flexibility. 5. Cost and Accessibility Shaper: Higher Initial Cost: Shapers are generally more expensive than routers, with a higher initial investment required. Expensive Cutters: The cost of shaper cutter heads can also be higher, especially for custom-made profiles. Space Requirements: Shapers require significant workshop space due to their size and stationary nature. Router: Affordable and Accessible: Routers are more affordable and accessible, with a wide range of options available to suit different budgets. Inexpensive Bits: Router bits are relatively inexpensive and widely available, making it easy to expand the tool’s capabilities without a significant investment. Compact and Portable: Routers take up less space and can be used in various locations, offering greater flexibility for small workshops. 6. Ease of Use and Learning Curve Shaper: Steeper Learning Curve: Operating a shaper requires more skill and experience due to its complexity and power. Stable and Consistent: Once mastered, shapers offer stable and consistent performance for repetitive tasks. Router: User-Friendly: Routers are generally easier to use, with a shorter learning curve, making them suitable for beginners. Flexible and Adaptable: The lightweight and portable nature of routers makes them easy to handle and adaptable to various tasks and environments. Advantages of Using a Shaper Woodworking shapers are powerful, versatile machines that offer several advantages over other woodworking tools, especially routers. Their design and capabilities make them particularly well-suited for certain types of woodworking tasks. 1. Power and Stability High Power Output: Shapers are equipped with powerful motors, typically ranging from 1.5 to 5 horsepower (HP) or more. This high power allows them to handle large, dense hardwoods and perform heavy-duty tasks with ease. Enhanced Stability: The robust, stationary design of a shaper provides superior stability during operation. This stability ensures that even large and cumbersome workpieces can be handled without shifting, leading to more accurate cuts and less user fatigue. 2. Precision and Consistency Accurate Cuts: The design of the shaper allows for highly precise adjustments of the spindle height and angle. This precision enables woodworkers to achieve exact cuts, critical for detailed and complex projects. Consistent Performance: Shapers excel in producing consistent results, especially in repetitive tasks. The stability and power of the machine ensure that each cut is uniform, which is particularly important in production settings where identical components are needed. 3. Versatility with Cutter Heads Interchangeable Cutter Heads: Shapers use large, interchangeable cutter heads that can create a variety of profiles and shapes. This flexibility allows woodworkers to switch between different tasks, such as edge profiling, grooving, and molding, without needing multiple machines. Custom Cutter Options: Custom cutter heads can be made to order for specific profiles, providing unparalleled flexibility for unique and intricate designs. This capability is a significant advantage for professional woodworkers who need specialized cuts. Larger Diameter Cutters: The larger diameter of shaper cutter heads compared to router bits allows for smoother and more efficient cuts on large surfaces. This is especially beneficial for tasks like creating wide moldings and panel work. 4. Ideal for Large-Scale and Repetitive Work Handling Large Workpieces: The expansive table surface of a shaper provides ample support for large workpieces. This support is essential for maintaining control and accuracy when working on sizable projects, such as doors, panels, and large furniture components. Efficiency in Repetitive Tasks: In production environments, shapers are invaluable for tasks that require repeated precision cuts. Their ability to produce consistent results with minimal setup changes makes them highly efficient for batch processing. 5. Durability and Longevity Built for Heavy Use: Shapers are designed for durability and can withstand continuous, heavy use. The robust construction and quality materials used in shapers ensure a long lifespan, making them a worthwhile investment for professional workshops. Low Maintenance: Due to their sturdy build and fewer moving parts compared to handheld tools, shapers generally require less maintenance. This reliability reduces downtime and maintenance costs over the machine’s lifetime. 6. Safety Features Enhanced Safety Mechanisms: Shapers often come with built-in safety features such as featherboards, hold-downs, and guards. These features help secure the workpiece and protect the operator, reducing the risk of accidents. Reduced Kickback: The design of the shaper and the use of larger cutter heads help minimize the risk of kickback, a common hazard in woodworking. The stable operation and controlled cutting process contribute to a safer working environment. 7. Superior Finish Quality Smoother Cuts: The power and stability of a shaper, combined with the larger diameter of its cutter heads, result in smoother cuts with fewer imperfections. This superior finish quality reduces the need for extensive sanding and finishing work. Professional Results: The ability to achieve highly detailed and precise profiles with a shaper means that woodworkers can produce professional-grade results. This capability is particularly important for high-end woodworking projects where quality and detail are paramount. Advantages of Using a Router Routers are among the most versatile and indispensable tools in woodworking. They offer a wide range of benefits that make them suitable for various tasks and projects, from simple edge trimming to intricate joinery. 1. Versatility and Flexibility Wide Range of Applications: Routers can perform an extensive array of tasks, including edge profiling, grooving, joinery, inlay work, and more. This versatility makes them a central tool in any woodworking shop. Interchangeable Bits: Routers use a variety of bits designed for specific tasks, such as straight bits for cutting dados, round-over bits for smoothing edges, and dovetail bits for joinery. The ability to switch bits easily allows woodworkers to tackle different projects without needing multiple tools. Handheld or Table-Mounted: Routers can be used as handheld tools for freehand work or mounted on a router table for increased stability and precision. This dual functionality enhances their adaptability to different woodworking tasks and preferences. 2. Portability and Ease of Use Lightweight and Portable: Most routers are designed to be lightweight and portable, making them easy to handle and maneuver. This portability allows woodworkers to use them on-site or move them around the workshop as needed. User-Friendly Design: Routers are generally easy to use, with intuitive controls and straightforward bit changes. This ease of use makes them accessible to both novice and experienced woodworkers. Adjustable Speed Control: Many routers feature variable speed controls, enabling users to adjust the RPM based on the material and bit type. This flexibility helps achieve cleaner cuts and prevents burning, especially when working with different wood types. 3. Precision and Detail Fine Depth Adjustment: Routers allow for precise depth adjustments, essential for tasks requiring exact cuts, such as inlay work and joinery. Fine-tuning the cutting depth ensures accuracy and consistency in detailed projects. Template and Guide Compatibility: Routers can be used with various templates and guides to create consistent and intricate patterns. This capability is particularly useful for repetitive tasks and complex designs. Smooth and Clean Cuts: The high-speed rotation of router bits, often between 8,000 to 25,000 RPM, allows for smooth and clean cuts. This high speed is especially beneficial for detailed work and finishing edges. 4. Cost-Effectiveness Affordable Tool Options: Routers are generally more affordable than shapers, making them accessible to hobbyists and small workshop owners. There are numerous models available at different price points to suit various budgets. Inexpensive Bits: Router bits are relatively inexpensive and widely available. This affordability allows woodworkers to expand their collection of bits without significant investment, increasing the router’s versatility. Cost-Effective for Small Shops: For small woodworking shops or DIY enthusiasts, routers offer a cost-effective solution for a wide range of tasks without the need for multiple specialized tools. 5. Compact Size and Space Efficiency Space-Saving Design: Routers are compact and take up less space in the workshop compared to larger machines like shapers. This small footprint is advantageous for workshops with limited space. Handheld Operation: The ability to operate routers handheld allows for greater flexibility in positioning and usage, making them suitable for working on large, fixed structures or pieces that cannot be easily moved. 6. Safety and Control Ergonomic Handles: Routers are designed with ergonomic handles that provide a comfortable grip, reducing user fatigue and improving control during operation. This ergonomic design is crucial for maintaining precision, especially during extended use. Dust Collection Systems: Many routers come with built-in dust collection ports, which help keep the work area clean and improve visibility. Effective dust collection also contributes to a safer working environment by reducing airborne dust particles. Built-In Safety Features: Routers often include safety features such as soft start, which gradually increases the motor speed to prevent sudden jolts, and spindle locks for secure bit changes. These features enhance user safety and tool control. 7. Ideal for Detailed and Decorative Work Intricate Pattern Work: Routers excel at creating intricate patterns, decorative edges, and detailed inlays. Their ability to produce fine, detailed cuts makes them ideal for projects requiring a high level of craftsmanship. Joinery: Routers are highly effective for cutting precise joinery, such as dovetails, mortises, and tenons. The precision and control offered by routers ensure strong, accurate joints. Disadvantages of Shapers and Routers While shapers and routers are indispensable tools in woodworking, each has its own set of limitations and disadvantages. Understanding these drawbacks can help woodworkers make informed decisions about which tool best suits their needs and how to mitigate any potential issues. Disadvantages of Using a Shaper 1. High Initial Cost Expensive Investment: Shapers are generally more expensive than routers. The initial purchase cost can be a significant investment, especially for hobbyists or small workshop owners. Cost of Cutter Heads: Shaper cutter heads can also be costly, particularly if custom-made profiles are required. This added expense can increase the overall cost of operating a shaper. 2. Size and Space Requirements Large Footprint: Shapers are typically large, stationary machines that require substantial workshop space. This can be a limitation for small workshops with limited space. Lack of Portability: Due to their size and weight, shapers are not portable and must remain in a fixed location. This lack of mobility can be a disadvantage for woodworkers who need to work on-site or move their tools frequently. 3. Complexity and Learning Curve Steeper Learning Curve: Operating a shaper can be more complex than using a router. The adjustment of the spindle height, selection of appropriate cutter heads, and ensuring safety during operation require a higher level of skill and experience. Setup Time: Setting up a shaper for different tasks can be time-consuming, especially when changing cutter heads or adjusting the spindle. This can reduce efficiency in a busy workshop. 4. Safety Concerns Risk of Serious Injury: Shapers are powerful machines with large, sharp cutter heads that can pose a significant risk of injury if not used correctly. Proper training and safety precautions are essential to minimize the risk of accidents. Kickback Potential: Although shapers are designed to minimize kickback, it can still occur if the workpiece is not properly secured or if incorrect cutting techniques are used. 5. Limited Flexibility for Small-Scale Work Not Ideal for Intricate Details: Shapers are better suited for large-scale projects and may not be the best tool for fine, intricate work. Routers, with their smaller bits and greater maneuverability, are often better for detailed tasks. Disadvantages of Using a Router 1. Limited Power and Stability Lower Power: Compared to shapers, routers have less powerful motors, typically ranging from 1 to 3.25 horsepower. This limitation can make it challenging to work with large, dense hardwoods or perform heavy-duty tasks. Less Stability: Handheld routers may lack the stability of a shaper, potentially affecting precision, especially when working on large or cumbersome workpieces. 2. Vibration and Noise High Vibration: Routers can produce significant vibration during operation, which can affect control and accuracy. Prolonged use can also lead to user fatigue. Noise Level: Routers are noisy tools, and prolonged exposure to high noise levels can be harmful. Proper hearing protection is necessary when operating a router. 3. Bit Size and Durability Smaller Diameter Bits: Router bits are generally smaller in diameter than shaper cutter heads, which can limit their effectiveness for large-scale cutting and shaping tasks. Wear and Tear: Router bits tend to wear out faster than shaper cutter heads, especially when used on hard materials. Frequent replacement of bits can add to the operational costs. 4. Precision and Control Manual Handling: Handheld routers require steady hands and precise control, which can be challenging for novice users. Any slight movement can affect the quality of the cut. Depth Adjustment: While routers allow for precise depth adjustments, maintaining consistent depth during freehand work can be difficult, leading to uneven cuts. 5. Safety Concerns Risk of Injury: Like shapers, routers also pose a risk of injury if not used correctly. The high-speed rotation of the bit can cause serious injuries if proper safety measures are not followed. Kickback: Routers are prone to kickback, especially when cutting against the grain or using dull bits. This can be dangerous and requires careful handling and technique to mitigate. 6. Dust and Debris Dust Generation: Routers generate a significant amount of dust and debris during operation. Without proper dust collection systems, this can create a messy and potentially hazardous work environment. Which Tool is Better for Specific Tasks? Choosing between a woodworking shaper and a router depends on the specific tasks you need to perform. Both tools have their strengths and are better suited for different types of woodworking projects. 1. Edge Profiling Shaper: Best for Large Profiles: Shapers are ideal for creating large, detailed edge profiles on furniture and cabinetry. Their powerful motors and larger cutter heads can handle extensive molding tasks efficiently. Smooth Finishes: The stability and power of a shaper provide smooth, consistent finishes, making it perfect for producing high-quality edges on large workpieces. Router: Great for Small to Medium Profiles: Routers excel at creating small to medium-sized edge profiles. They offer a wide variety of bits for different edge shapes, from simple round-overs to complex ogee profiles. Versatile and Detailed: Routers are more versatile for intricate edge work, especially when handheld or used with a router table for smaller, detailed projects. 2. Grooving and Dados Shaper: Heavy-Duty Grooving: Shapers are better suited for heavy-duty grooving and dado cuts in large panels and hardwoods. The power and stability of a shaper allow for deeper, wider grooves without strain. Consistent Depth and Width: Shapers provide precise control over the depth and width of grooves and dados, ensuring consistency across multiple cuts. Router: Versatile Grooving: Routers are highly versatile for grooving and dado tasks, particularly in smaller or medium-sized workpieces. They are easy to set up for various groove widths and depths. Portable for On-Site Work: The portability of routers makes them ideal for on-site grooving and dado cuts, especially in cabinetry and shelving installations. 3. Joinery Shaper: Robust Joinery: Shapers are excellent for creating robust joinery such as tenons, mortises, and dovetails in large-scale projects. The precision and power of shapers ensure strong, accurate joints. Consistent Repetition: In production settings, shapers are perfect for repetitive joinery tasks, providing consistent and reliable results. Router: Precision Joinery: Routers are great for precision joinery tasks like dovetails, box joints, and rabbets. Specialized jigs and templates make routers incredibly effective for creating detailed joints. Flexibility in Small Projects: Routers offer flexibility and control for smaller joinery tasks, making them suitable for furniture making and fine woodworking. 4. Molding and Decorative Work Shaper: Large-Scale Molding: Shapers are unmatched for creating large-scale molding and trim. Their ability to use large cutter heads allows for intricate and extensive molding designs. Professional Finish: The power and stability of shapers provide a professional finish, essential for high-end molding work in furniture and architectural elements. Router: Intricate Decorative Work: Routers are perfect for intricate decorative work and smaller moldings. They can handle detailed inlays, edge treatments, and complex patterns with ease. Versatility with Templates: The use of templates and guides enhances the router’s ability to perform precise decorative work, making it a versatile tool for creative woodworking projects. 5. Panel Raising Shaper: Heavy-Duty Panel Raising: Shapers excel at panel raising, especially for large cabinet doors and paneling. Their power and stability ensure smooth, consistent cuts on large panels. Deep, Clean Cuts: The larger cutter heads on shapers allow for deep, clean cuts necessary for raised panel designs. Router: Smaller Panel Work: While routers can also be used for panel raising, they are better suited for smaller panels or lighter materials. Specialized panel-raising bits are available for routers, but they may require multiple passes to achieve the desired depth. Portable Option: For smaller, on-site projects, a router is a more portable option for panel raising, providing flexibility in various settings. 6. Template Work Shaper: Limited Template Use: Shapers are not typically used for detailed template work. While they can follow patterns, the large cutter heads and less maneuverability make them less suitable for intricate template-guided tasks. Router: Ideal for Templates: Routers are ideal for template work, providing precision and ease of use. They can follow complex templates to create consistent shapes and patterns, essential for detailed and repetitive tasks. Flexibility with Different Templates: Routers can easily switch between different templates, making them versatile for various design and production needs. 7. Trimming and Flush Cutting Shaper: Not Ideal for Trimming: Shapers are generally not used for trimming or flush cutting due to their size and less maneuverability. Router: Perfect for Trimming: Routers excel at trimming and flush cutting tasks. They can easily trim laminate, veneer, and edges flush with the substrate using specialized bits. Precision in Small Areas: The compact size and portability of routers make them ideal for precision trimming in tight or intricate areas. 8. Inlay Work and Fine Detailing Shaper: Limited Use for Inlays: Shapers are not typically used for inlay work or fine detailing due to their larger cutter heads and focus on heavy-duty tasks. Router: Excellent for Inlays: Routers are perfect for inlay work and fine detailing. Their ability to use small, precise bits allows for intricate designs and detailed patterns. Control and Precision: Routers provide the control and precision needed for delicate tasks, making them suitable for high-quality decorative work. Enjoyed this guide of woodworking shaper vs router? Then be sure to check out our other woodworking guides. Best Bandsaws for Woodworking Best Drill Press for Woodworking Best Woodworking Table Saws Best Portable Table Saws for Woodworking Best CNC Machines for Woodworking Best Miter Saws for Woodworking Best Belt Sanders for Woodworking Best Table Saws for Beginners Woodworking Guides and Tips RouterShaperwoodworking