{"id":5422,"date":"2026-02-28T20:35:09","date_gmt":"2026-02-28T12:35:09","guid":{"rendered":"https:\/\/mkaluprofile.com\/t-slot-aluminium-profile\/"},"modified":"2026-06-08T20:21:20","modified_gmt":"2026-06-08T12:21:20","slug":"t-slot-aluminium-profile","status":"publish","type":"post","link":"https:\/\/mkaluprofile.com\/fr\/t-slot-aluminium-profile\/","title":{"rendered":"profil\u00e9 d'aluminium \u00e0 rainure en t"},"content":{"rendered":"

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\ud83d\udcd1 \u6587\u7ae0\u76ee\u5f55<\/h4>\n
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\ud83d\udcc4 What Is T-Slot Aluminium Profile and How Does It Work?<\/a><\/li>\n
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\u2514 \ud83d\udccc Key Components and Assembly Methods<\/a><\/li>\n<\/ul>\n
\ud83d\udcc4 Why Choose T-Slot Aluminium Profile Over Steel or Wood?<\/a><\/li>\n
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\u2514 \ud83d\udccc Comparative Analysis of Materials<\/a><\/li>\n<\/ul>\n
\ud83d\udcc4 How to Select the Right T-Slot Aluminium Profile for Your Project?<\/a><\/li>\n
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\u2514 \ud83d\udccc Step-by-Step Selection Guide<\/a><\/li>\n<\/ul>\n
\ud83d\udcc4 FAQ<\/a><\/li>\n
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\u2514 \ud83d\udccc 1. What is the maximum length of a T-slot aluminium profile?<\/a><\/li>\n
\u2514 \ud83d\udccc 2. Can T-slot aluminium profiles be used outdoors?<\/a><\/li>\n
\u2514 \ud83d\udccc 3. How do I cut and machine T-slot aluminium profiles?<\/a><\/li>\n
\u2514 \ud83d\udccc 4. What is the difference between drop-in T-nuts and slide-in T-nuts?<\/a><\/li>\n
\u2514 \ud83d\udccc 5. Can T-slot aluminium profiles be welded?<\/a><\/li>\n
\u2514 \ud83d\udccc 6. How much weight can a T-slot aluminium profile frame support?<\/a><\/li>\n
\u2514 \ud83d\udccc 7. Are T-slot aluminium profiles compatible with other materials?<\/a><\/li>\n
\u2514 \ud83d\udccc 8. What surface treatments are available for T-slot aluminium profiles?<\/a><\/li>\n
\u2514 \ud83d\udccc 9. How do I join two T-slot aluminium profiles at an angle?<\/a><\/li>\n
\u2514 \ud83d\udccc 10. What is the cost of T-slot aluminium profiles compared to other materials?<\/a><\/li>\n<\/ul>\n<\/ul>\n<\/div>\n
What Is T-Slot Aluminium Profile and How Does It Work?<\/h2>\n
T-slot aluminium profile, also known as aluminum extrusion with T-shaped slots, is a versatile structural component widely used in industrial framing, automation, workstations, and DIY projects. The profile is manufactured through an extrusion process where aluminum alloy is forced through a die to create a cross-section with one or more T-shaped channels. These channels, or slots, allow for the insertion of T-nuts, bolts, and other fasteners, enabling easy assembly and reconfiguration without welding. The standard material is 6063-T5 or 6061-T6 aluminum, offering a balance of strength, corrosion resistance, and lightweight properties. The modular nature of T-slot profiles makes them ideal for building machine guards, conveyor systems, solar panel mounts, and even furniture. The key advantage is the ability to adjust, expand, or disassemble structures quickly using simple hand tools, reducing time and labor costs. The profiles come in various sizes, from 20×20 mm for light-duty applications to 100×100 mm for heavy industrial frames. Surface treatments like anodizing or powder coating enhance durability and aesthetics. Understanding the basic geometry\u2014slot width, channel depth, and wall thickness\u2014is crucial for selecting the right profile for load-bearing requirements.<\/p>\n
Key Components and Assembly Methods<\/h3>\n
The core components of a T-slot system include the profile itself, T-nuts (drop-in or slide-in), bolts (hex socket or button head), corner brackets, gussets, and end caps. Assembly involves sliding T-nuts into the slots, positioning the profile, and tightening bolts to secure joints. No welding or specialized skills are required, making it accessible for engineers and hobbyists alike. The system supports 90-degree angles, 45-degree angles, and even adjustable joints using pivot brackets. For heavy loads, additional reinforcement plates or steel brackets can be used. The modularity allows for infinite design possibilities, from simple frames to complex 3D structures. The profiles can also be machined with drilled holes or tapped ends for fixed connections. The ease of disassembly means components can be reused in different projects, reducing waste and cost.<\/p>\n\n\n\n\n\n\n\n\n\n
Profile Size (mm)<\/th>\n Slot Width (mm)<\/th>\n Weight (kg\/m)<\/th>\n Max Load Capacity (kg)<\/th>\n Common Applications<\/th>\n<\/tr>\n<\/thead>\n
20×20<\/td>\n 6<\/td>\n 0.5<\/td>\n 50<\/td>\n Light frames, enclosures<\/td>\n<\/tr>\n
30×30<\/td>\n 8<\/td>\n 0.9<\/td>\n 150<\/td>\n Workstations, shelving<\/td>\n<\/tr>\n
40×40<\/td>\n 8<\/td>\n 1.5<\/td>\n 300<\/td>\n Machine guards, conveyors<\/td>\n<\/tr>\n
50×50<\/td>\n 10<\/td>\n 2.2<\/td>\n 500<\/td>\n Heavy machinery bases<\/td>\n<\/tr>\n
80×80<\/td>\n 10<\/td>\n 4.5<\/td>\n 1000<\/td>\n Structural frames, gantries<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n
Why Choose T-Slot Aluminium Profile Over Steel or Wood?<\/h2>\n
When selecting materials for framing or structural projects, the choice often comes down to aluminum, steel, or wood. T-slot aluminium profile offers distinct advantages that make it superior in many scenarios. First, weight: aluminum is about one-third the weight of steel, making handling and assembly easier, especially for large structures. Second, corrosion resistance: aluminum naturally forms a protective oxide layer, eliminating the need for painting or galvanizing in most indoor environments. Third, modularity: the T-slot system allows for infinite adjustability, whereas steel often requires welding or drilling, and wood may warp or split over time. Fourth, reusability: aluminum profiles can be disassembled and reconfigured multiple times without loss of integrity, unlike welded steel or nailed wood. Fifth, aesthetic appeal: clean, modern lines with anodized finishes look professional in visible applications like office workstations or retail displays. Sixth, precision: extruded profiles have tight tolerances, ensuring accurate assembly and alignment. Seventh, electrical conductivity: aluminum can be grounded easily, important for electronic enclosures. Eighth, thermal expansion: aluminum expands less than wood but more than steel; however, this is manageable with proper design. Ninth, cost: while initial material cost may be higher than wood, long-term savings from reduced labor, maintenance, and reusability often offset this. Tenth, environmental impact: aluminum is 100% recyclable without quality loss, making it a sustainable choice. For projects requiring high strength-to-weight ratio, flexibility, and longevity, T-slot aluminium profile is the optimal solution.<\/p>\n
Comparative Analysis of Materials<\/h3>\n
Steel offers higher tensile strength but is heavier, prone to rust, and requires skilled labor for welding. Wood is inexpensive but susceptible to moisture, insects, and fire, and lacks precision. T-slot aluminium bridges the gap by providing adequate strength for most industrial applications while offering ease of use and durability. For example, a machine guard made from 40×40 aluminum profile can support up to 300 kg, sufficient for protecting operators from moving parts. In contrast, a similar steel frame would weigh twice as much and require welding, increasing fabrication time. Wood frames might be cheaper but would need regular maintenance and cannot be easily adjusted. The modular nature of T-slot also allows for rapid prototyping and iterative design, which is invaluable in engineering and manufacturing environments. Additionally, the availability of accessories like hinges, handles, and mounting plates extends functionality without custom fabrication.<\/p>\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Property<\/th>\n T-Slot Aluminium<\/th>\n Steel<\/th>\n Wood<\/th>\n<\/tr>\n<\/thead>\n
Weight<\/td>\n Light<\/td>\n Heavy<\/td>\n Medium<\/td>\n<\/tr>\n
R\u00e9sistance \u00e0 la corrosion<\/td>\n Excellent<\/td>\n Poor (needs coating)<\/td>\n Poor (needs treatment)<\/td>\n<\/tr>\n
Modularity<\/td>\n Excellent<\/td>\n Low (welding required)<\/td>\n Low (nails\/screws)<\/td>\n<\/tr>\n
Reusability<\/td>\n High<\/td>\n Low<\/td>\n Low<\/td>\n<\/tr>\n
Precision<\/td>\n High<\/td>\n Medium<\/td>\n Low<\/td>\n<\/tr>\n
Maintenance<\/td>\n Low<\/td>\n High<\/td>\n High<\/td>\n<\/tr>\n
Cost (initial)<\/td>\n Medium<\/td>\n Low<\/td>\n Low<\/td>\n<\/tr>\n
Cost (lifecycle)<\/td>\n Low<\/td>\n High<\/td>\n Medium<\/td>\n<\/tr>\n
Recyclability<\/td>\n 100%<\/td>\n High<\/td>\n Limited<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n
How to Select the Right T-Slot Aluminium Profile for Your Project?<\/h2>\n
Choosing the correct T-slot aluminium profile involves evaluating several factors to ensure structural integrity, functionality, and cost-effectiveness. The first consideration is load capacity. Calculate the total weight the frame must support, including dynamic loads from moving parts or vibrations. Use manufacturer load tables or engineering formulas to determine the required profile size and wall thickness. For example, a 40×40 profile with 2mm wall thickness can support up to 300 kg in a simple beam configuration, but this decreases with longer spans. Second, consider the environment. For outdoor or corrosive settings, choose profiles with anodized or powder-coated finishes. For food processing or cleanrooms, select profiles with smooth surfaces and no exposed fasteners. Third, determine the complexity of the structure. Simple rectangular frames can use basic profiles, while complex 3D structures may require profiles with multiple slots or heavier cross-sections. Fourth, evaluate the need for future modifications. If you anticipate changes, choose profiles with standard slot sizes (e.g., 8mm or 10mm) to ensure compatibility with a wide range of accessories. Fifth, consider aesthetics. For visible applications, profiles with rounded edges and uniform finishes are preferable. Sixth, budget constraints. While larger profiles cost more per meter, they may reduce the need for additional bracing. Seventh, availability of accessories. Ensure that T-nuts, brackets, and fasteners are readily available for the chosen profile size. Eighth, thermal and electrical requirements. For applications involving heat dissipation or grounding, aluminum’s properties are advantageous. Ninth, compliance with standards. Some industries require profiles meeting specific certifications, such as UL or CE. Tenth, consult with suppliers or engineers for custom profiles if standard sizes do not meet your needs. By systematically evaluating these factors, you can select a profile that balances performance, cost, and longevity.<\/p>\n
Step-by-Step Selection Guide<\/h3>\n
Start by defining the project’s purpose: is it a lightweight enclosure, a heavy-duty machine base, or a movable cart? Next, sketch the frame dimensions and identify critical load points. Use online calculators or software to simulate stress and deflection. Then, choose a profile series\u2014light, medium, or heavy\u2014based on load requirements. For example, 20×20 series is ideal for small enclosures, while 80×80 series suits large gantries. Verify slot compatibility with fasteners and accessories. Consider the number of slots per side; more slots offer greater flexibility for mounting components. Finally, order a sample to test assembly and fit before committing to bulk purchase. This iterative approach minimizes errors and ensures the final structure meets all functional and safety requirements.<\/p>\n\n\n\n\n\n\n\n\n\n
Project Type<\/th>\n Recommended Profile Size<\/th>\n Slot Size (mm)<\/th>\n Typical Load (kg)<\/th>\n Key Considerations<\/th>\n<\/tr>\n<\/thead>\n
Small enclosure<\/td>\n 20×20<\/td>\n 6<\/td>\n <50<\/td>\n Lightweight, low cost<\/td>\n<\/tr>\n
Workstation<\/td>\n 30×30 or 40×40<\/td>\n 8<\/td>\n 50-200<\/td>\n Ergonomics, adjustability<\/td>\n<\/tr>\n
Machine guard<\/td>\n 40×40<\/td>\n 8<\/td>\n 200-400<\/td>\n Safety, impact resistance<\/td>\n<\/tr>\n
Conveyor frame<\/td>\n 50×50<\/td>\n 10<\/td>\n 400-800<\/td>\n Vibration, alignment<\/td>\n<\/tr>\n
Heavy gantry<\/td>\n 80×80 or 100×100<\/td>\n 10<\/td>\n 800-2000<\/td>\n Stiffness, precision<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n
FAQ<\/h2>\n
1. What is the maximum length of a T-slot aluminium profile?<\/h3>\n
The maximum length of a T-slot aluminium profile typically ranges from 6 to 7 meters (about 20 to 23 feet) due to manufacturing and shipping constraints. Extrusion presses produce profiles in standard lengths of 6 meters, but custom lengths up to 12 meters may be available for special orders, though this increases cost and logistics complexity. For longer structures, profiles can be joined end-to-end using internal connectors or splice plates, ensuring continuity of the T-slots for fastener placement. However, joints may introduce slight weakness, so reinforcement is recommended for load-bearing spans. When ordering, consider the final assembly length and plan for joints if needed. Many suppliers offer cutting services to precise lengths, reducing waste and on-site labor. For extremely long spans, such as in industrial gantries, engineers often use multiple profiles with bracing to distribute loads. Always consult with the manufacturer about maximum available lengths and jointing solutions for your specific project.<\/p>\n
2. Can T-slot aluminium profiles be used outdoors?<\/h3>\n
Yes, T-slot aluminium profiles can be used outdoors, but proper material selection and surface treatment are essential to ensure longevity. Standard 6063-T5 aluminium has good natural corrosion resistance due to its oxide layer, but exposure to saltwater, acidic rain, or industrial pollutants can accelerate corrosion. For outdoor applications, choose profiles with anodized coating (at least 15 microns) or powder coating for added protection. Anodizing creates a hard, durable surface that resists UV degradation and chemical attack. Powder coating offers a wide range of colors and thicker protection but may chip over time. Additionally, use stainless steel fasteners and T-nuts to prevent galvanic corrosion between dissimilar metals. Design the structure to allow water drainage and avoid trapped moisture. Regular cleaning and inspection can extend the life of outdoor aluminum structures. For marine environments, consider 6061-T6 alloy with higher strength and corrosion resistance, though it is less extrudable. Overall, with proper precautions, T-slot aluminium profiles can last decades outdoors.<\/p>\n
3. How do I cut and machine T-slot aluminium profiles?<\/h3>\n
Cutting and machining T-slot aluminium profiles requires appropriate tools and techniques to maintain accuracy and safety. For cutting, a miter saw with a carbide-tipped blade designed for non-ferrous metals is recommended. Use a blade with 60-80 teeth and a negative rake angle to reduce burrs. Clamp the profile securely to prevent vibration and ensure straight cuts. For drilling, use high-speed steel (HSS) drill bits with a 118-degree point angle, and lubricate with cutting oil to prevent binding. Tapping threads requires a tap of the correct size (e.g., M6 or M8) and a tap guide to ensure perpendicularity. For complex shapes, a CNC router or milling machine can be used with appropriate end mills. Always wear safety glasses and hearing protection, as aluminum chips can be sharp. Deburr all edges with a file or deburring tool to avoid injury and ensure proper fit. Many suppliers offer custom cutting and machining services, which can save time and ensure precision for large or complex projects.<\/p>\n
4. What is the difference between drop-in T-nuts and slide-in T-nuts?<\/h3>\n
Drop-in T-nuts and slide-in T-nuts are two common types of fasteners used with T-slot aluminium profiles, each with distinct advantages. Drop-in T-nuts are inserted from the top of the slot and fall into place, held by a spring or ball mechanism. They are ideal for applications where the nut needs to be positioned quickly and can be easily removed. Slide-in T-nuts, on the other hand, are inserted from the end of the profile and slide along the slot to the desired position. They provide a more secure hold because they are fully engaged with the slot walls. Slide-in nuts are better for permanent or high-load connections, as they distribute force more evenly. Drop-in nuts are more convenient for frequent adjustments or when access to the slot end is limited. Both types are available in various materials, including steel, stainless steel, and zinc-plated steel. The choice depends on the specific assembly requirements, such as ease of installation, load capacity, and frequency of disassembly.<\/p>\n
5. Can T-slot aluminium profiles be welded?<\/h3>\n
Yes, T-slot aluminium profiles can be welded, but it is generally not recommended because welding destroys the T-slot geometry and negates the modularity benefits. Welding requires specialized equipment, such as TIG (Tungsten Inert Gas) welders, and skilled operators to avoid warping or weakening the material. The heat from welding can also damage the surface finish and reduce corrosion resistance. If welding is necessary, use 4043 or 5356 filler rods and preheat the profile to minimize thermal stress. After welding, the T-slots may need to be re-machined to restore functionality. However, for most applications, mechanical connections using brackets, gussets, and T-nuts are preferred because they maintain modularity, allow disassembly, and are easier to implement. Welding should only be considered for custom frames where modularity is not required, or for repairing damaged profiles. Always consult with a professional welder experienced in aluminum alloys.<\/p>\n
6. How much weight can a T-slot aluminium profile frame support?<\/h3>\n
The weight capacity of a T-slot aluminium profile frame depends on several factors: profile size, wall thickness, span length, load distribution, and connection method. For example, a single 40×40 profile with 2mm wall thickness can support up to 300 kg in a simple beam configuration with a 1-meter span, but this drops to 150 kg at 2 meters. Frames with multiple profiles, cross-bracing, and corner brackets can handle much higher loads. For a typical machine guard made from 40×40 profiles, the total load capacity might be 500-1000 kg, depending on design. Heavy-duty frames using 80×80 profiles can support several tons. Always use manufacturer load tables or engineering calculations to determine safe loads. Consider dynamic loads, such as vibrations from machinery, which can reduce effective capacity. Safety factors of 2-3 are common in industrial applications. For critical structures, consult a structural engineer to ensure compliance with safety standards.<\/p>\n
7. Are T-slot aluminium profiles compatible with other materials?<\/h3>\n
Yes, T-slot aluminium profiles can be integrated with other materials like steel, wood, plastic, and glass using appropriate adapters and fasteners. For example, mounting plates can be bolted to the T-slots to attach steel brackets or wooden shelves. Polycarbonate or acrylic panels can be secured using panel retainers or glazing strips that fit into the slots. For heavy steel components, use steel T-nuts to ensure strength. When combining aluminum with steel, use isolation materials like rubber gaskets or nylon washers to prevent galvanic corrosion. For wood, use wood screws into pre-drilled holes in the profile or T-nuts with machine screws. The modular nature of T-slot systems makes them highly adaptable, allowing hybrid structures that leverage the strengths of different materials. This compatibility is particularly useful in automation, where aluminum frames support steel linear guides or plastic enclosures.<\/p>\n
8. What surface treatments are available for T-slot aluminium profiles?<\/h3>\n
Common surface treatments for T-slot aluminium profiles include anodizing, powder coating, and painting. Anodizing is an electrochemical process that thickens the natural oxide layer, providing enhanced corrosion resistance and wear protection. It comes in clear, black, or other colors, and is the most common treatment for industrial profiles. Powder coating involves applying a dry powder that is cured under heat, creating a thick, durable finish in any color. It offers better impact resistance than anodizing but may chip. Painting is less common but can be used for custom colors or touch-ups. For special applications, such as food processing, profiles can be treated with anti-bacterial coatings. For electrical applications, conductive anodizing or bare profiles are used. The choice depends on the environment, aesthetics, and budget. Anodized profiles are typically more expensive but offer superior longevity in harsh conditions.<\/p>\n
9. How do I join two T-slot aluminium profiles at an angle?<\/h3>\n
Joining T-slot aluminium profiles at an angle requires specialized connectors like angle brackets, corner gussets, or pivot joints. For 90-degree connections, standard corner brackets with bolts and T-nuts are most common. For other angles, adjustable angle brackets allow setting any angle from 0 to 180 degrees. These brackets typically have slotted holes for adjustment and lock into place with bolts. For permanent joints, profiles can be cut at the desired angle and joined using internal connectors or splice plates. For example, a 45-degree miter cut can be joined with a corner bracket designed for that angle. Ensure that the joint is reinforced with gussets or additional bracing to handle loads. For dynamic applications like adjustable workstations, use pivot joints that allow angle changes without disassembly. Always tighten bolts to the recommended torque to prevent loosening under vibration.<\/p>\n
10. What is the cost of T-slot aluminium profiles compared to other materials?<\/h3>\n
The initial cost of T-slot aluminium profiles is generally higher than wood or steel per meter, but the total cost of ownership is often lower due to reduced labor, maintenance, and reusability. For example, a 40×40 aluminum profile costs around $10-$20 per meter, while a similar steel profile might cost $5-$10 per meter, and wood $2-$5 per meter. However, aluminum requires no welding, painting, or special tools, saving labor costs. Additionally, aluminum structures can be disassembled and reused, reducing waste for future projects. Over a 10-year lifespan, aluminum frames often prove more economical, especially in environments where corrosion would require steel to be replaced. For small projects, the higher upfront cost may be justified by the ease of assembly and professional appearance. For large industrial applications, the long-term savings from modularity and durability make aluminum a cost-effective choice.<\/p>\n
In conclusion, T-slot aluminium profile offers a versatile, durable, and cost-effective solution for a wide range of structural applications. Its modular design, ease of assembly, and compatibility with various accessories make it ideal for both industrial and DIY projects. By understanding the key factors in selection, assembly, and maintenance, you can maximize the benefits of this innovative material. Whether building a simple workstation or a complex automation system, T-slot aluminium profile provides the flexibility and performance needed to succeed.<\/p>","protected":false},"excerpt":{"rendered":"
\ud83d\udcd1 \u6587\u7ae0\u76ee\u5f55 \ud83d\udcc4 What Is T-Slot Aluminium Profile and How Does It Work? \u2514 \ud83d\udccc Key Components and Assembly Methods \ud83d\udcc4 Why Choose T-Slot Aluminium Profile Over Steel or Wood? \u2514 \ud83d\udccc Comparative Analysis of Materials \ud83d\udcc4 How to Select the Right T-Slot Aluminium Profile for Your Project? \u2514 \ud83d\udccc Step-by-Step Selection Guide \ud83d\udcc4 FAQ […]<\/p>\n","protected":false},"author":5,"featured_media":0,"comment_status":"","ping_status":"","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[1],"tags":[],"class_list":["post-5422","post","type-post","status-publish","format-standard","hentry","category-news"],"blocksy_meta":[],"_links":{"self":[{"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/posts\/5422","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/users\/5"}],"replies":[{"embeddable":true,"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/comments?post=5422"}],"version-history":[{"count":0,"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/posts\/5422\/revisions"}],"wp:attachment":[{"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/media?parent=5422"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/categories?post=5422"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/mkaluprofile.com\/fr\/wp-json\/wp\/v2\/tags?post=5422"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}