What are the challenges in designing tensile structures? Designing tensile structures presents several challenges, particularly in tensile architecture design. Key issues include ensuring the stability and safety of the structure under various loads like wind, snow, and seismic forces. Materials must be carefully chosen for strength, flexibility, and durability while maintaining lightweight properties. The precision required for tensioning the fabric or membrane is critical, as uneven tension can lead to deformation. Designing for sustainability, considering environmental impacts and maintenance needs, also adds complexity. Additionally, integrating aesthetic appeal with engineering demands and ensuring cost-efficiency while maintaining structural integrity poses a challenge for designers.

Achille Castiglioni and Pier Giacomo Castiglioni, Taraxacum 2, Flos, 1960 VS Frei Otto, Tensile structure model, IL5 – Information of The Institute of Lightweight Structures, October 1972

Pavilion Concept Mode

"I'm your arch's nemesis"

Normal people: what? that doesn't sound right, don't you mean-

Architects: HAVE AT THEE, FUCKING BUTTRESS

How to Transform Spaces with a Tensile Architecture Structure

Tensile architecture is a revolutionary approach to design that combines beauty, functionality, and efficiency. By utilizing the principles of tension, lightweight materials, and innovative construction techniques, a tensile architecture structure from Tensile Architecture Structure Manufacturers offers a versatile way to transform spaces. Whether you're looking to enhance a public area, residential property, or commercial building, tensile frameworks provide an elegant and sustainable solution. In this article, we'll explore how you can transform your spaces using this innovative design approach.

Maximizing Aesthetic Appeal

One of the most striking features of tensile architecture is its ability to create visually stunning and dynamic designs. Unlike traditional rigid structures, tensile designs use materials that are stretched over frames to create flowing, organic shapes that appear to defy gravity. This design flexibility allows architects to experiment with curves, angles, and open spaces, making tensile frameworks a perfect fit for modern and futuristic designs. For instance, a tensile canopy used in outdoor settings can act as a beautiful focal point. With its unique shape and sleek finish, it creates an inviting atmosphere while offering functional shading and protection. 

Enhancing Natural Light and Ventilation

Tensile architecture excels in enhancing natural light and air circulation in spaces. The open, airy designs allow for more natural sunlight to filter through, reducing the need for artificial lighting during the day. This can create brighter, more inviting spaces and help lower energy consumption. Additionally, the materials used in tensile architecture are often highly breathable, promoting better airflow and ventilation. For residential and commercial spaces, such features make tensile frameworks a smart investment in energy efficiency. 

Creating Versatile Outdoor Spaces

Tensile architectures are especially useful when transforming outdoor spaces. Their ability to provide shade, shelter, and an open, inviting atmosphere makes them ideal for enhancing gardens, terraces, poolside areas, or even public parks. A tensile framework can cover large or irregularly shaped areas, offering protection from the sun or rain while maintaining a spacious, open feel. For example, a tensile umbrella from Tensile Umbrella Manufacturers in an outdoor dining area can shield patrons from the sun’s harsh rays while still allowing air to flow freely. 

Improving Structural Efficiency

Tensile architectures are not only aesthetically pleasing, but they also offer a high degree of structural efficiency. By using materials such as tensile fabric, cables, and steel frames, these structures are often lighter and require less material compared to traditional building methods. This leads to both cost savings and a smaller environmental footprint. The use of tensioned fabric membranes in a tensile framework provides a unique balance of strength and lightness, allowing for the creation of expansive and efficient spaces without the need for heavy supports or complex engineering. 

Sustainability and Durability

Another significant benefit of tensile architecture is its sustainability. The materials used in tensile frameworks are often recyclable and have a smaller environmental impact compared to traditional building materials. Tensile frameworks are designed to be durable and weather-resistant, making them ideal for areas that experience harsh weather conditions, such as heavy rain, snow, or high winds. A tensile structure from Global Tensile Structure, one of the Best Tensile Structure Manufacturers in Delhi, can withstand various environmental factors, from UV rays to extreme temperatures, and requires minimal maintenance. This durability ensures that your transformed space remains functional and attractive for years, reducing long-term costs associated with repairs or replacements.

Customizability and Flexibility

Tensile architecture is also highly customizable, allowing you to tailor the design to fit your specific needs. Whether you are looking to create a shade structure for a small patio or a large, covered venue for public events, tensile frameworks can be adapted to a wide range of sizes, shapes, and functions. Architects and designers can choose from a variety of materials and finishes, including fabrics that offer UV protection or even solar panels for energy generation.This flexibility makes tensile architecture an excellent choice for spaces that require unique, non-traditional designs.

Transforming spaces with a tensile architecture opens up a world of possibilities. From its striking aesthetic appeal and natural lighting benefits to its versatility, efficiency, and sustainability, tensile architecture provides a design solution that works for both functional and creative needs. Whether you’re looking to revamp your outdoor area, create an innovative building design, or add an eye-catching feature, tensile frameworks offer a modern, practical, and eco-friendly option.

Architectural Marvels: Tensile Structures Especially Designed for Architecture

Looking to create a striking architectural statement in Pune? Architectural tensile structures could be your answer! At Iris, we specialize in crafting innovative tensile structures that blend art with function, transforming spaces into architectural marvels.

Why Choose Architectural Tensile Structures?

Aesthetic Appeal: Tensile structures offer a unique, modern look that can elevate the design of any building. Their flowing, organic shapes create a sense of elegance and sophistication, making your project stand out.

Versatility in Design: Whether you’re designing a commercial space, public installation, or residential project, tensile structures offer incredible versatility. They can be customized in various shapes, sizes, and colors to meet your architectural vision.

Durability and Strength: Despite their lightweight appearance, architectural tensile structures in Pune from the iris are incredibly strong and durable. They’re designed to withstand Pune’s varied weather conditions, from intense heat to heavy monsoons.

Eco-Friendly Construction: Tensile structures use fewer materials compared to traditional building methods, making them a sustainable choice. Their ability to span large areas without the need for extensive support structures also reduces the environmental footprint.

Quick Installation: Time is often a crucial factor in architectural projects. Tensile structures are relatively quick to install, helping you meet your project deadlines without compromising on quality or design.

Cost-Effective Solution: Architectural tensile structures provide a cost-effective solution for covering large spaces. Their efficiency in material usage and ease of installation make them a budget-friendly option for high-impact architectural projects.

Why Iris?

At Iris, we combine cutting-edge technology with expert craftsmanship to deliver tensile structures that not only meet but exceed your architectural needs. Our experience in the industry ensures that you get a product that is both aesthetically pleasing and structurally sound.

Turn your architectural dreams into reality with Iris’s architectural tensile structures in Pune. Contact us today to explore the endless possibilities and bring your vision to life!

This content is designed to establish Iris as a trusted expert in architectural tensile structures, providing valuable insights for potential clients at the awareness stage.

Contact:

Name- Iris tensile structures manufacturers in Pune | Car parking shed in Pune | Invisible Grills Dealers in Pune

Address- Sai Nisarg Park, 49, mayureshwar, near swaraj garden, Pimple Saudagar, pune, Maharashtra 411027

Phone Number- 9922909701

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Best Tensile Car Parking in Delhi

Tired of the Delhi heat baking your car?  We've got the answer! Our tensile car parking structures are like high-tech carports. Imagine a sturdy metal frame holding up a special fabric that creates a cool, shaded spot for your car. MS Tensile offers the best tensile car parking for car owners in Delhi. Not only will it protect your car from the sun's harsh rays, but it'll also keep it dry from rain and shielded from dust and dirt.

The best part? These shelters look fantastic!  They're modern and stylish, adding a touch of class to your home or business.  Plus, at MS Tensile, we offer:

Unbeatable Strength: Our shelters are built to last, using top-quality materials that can handle anything Delhi weather throws at them.

Just Your Style: We can design a car shelter that perfectly fits your space, whether you need a single spot or a canopy for multiple cars.

Expert Setup: Our experienced team will get your shelter installed quickly and efficiently, with minimal disruption.

Great Prices: We offer top-notch tensile car parking at affordable prices.

Contact MS Tensile today for a free consultation and quote to get the perfect car parking tensile structure for your needs.

Auditorium Tensile Structure

An "Auditorium Tensile Structure" typically refers to a tensile structure designed and constructed to cover the auditorium. An auditorium is a dedicated space for performances, presentations, lectures, or other events, and combining a tensile structure into its design can provide several benefits. Here's a breakdown of key aspects:

Advantages of Tensile Structures for Auditoriums:

Large Span Coverage: Tensile structures can cover large spans without the need for extensive internal support, creating unobstructed views within the auditorium.

Natural Lighting: Translucent fabric membranes can allow natural light to filter through, creating a well-lit and comfortable environment.

Customization: Tensile structures can be customized to fit the specific design requirements of the auditorium and provide a distinctive architectural identity.

Weather Protection: The tensile covering protects against the elements, ensuring that events can be held even in harsh weather.

Applications:

Outdoor Auditoriums: Tensile structures are often used in outdoor auditoriums to create a covered space for performances and events.

Entrance Canopies: Tensile structures can also be used as entrance canopies for auditoriums, providing a welcoming and aesthetically pleasing feature.

If you're searching for a reliable and trustworthy company for high-quality Auditorium Tensile Structures look no further than Royal Tensile Structure Pvt. Ltd.!

could you give like, a crash course in how to do architecture in ceramics?

Honestly it's a lot like making gingerbread houses, if the gingerbread were a little undercooked. (For the record: you could pretty easily repurpose a gingerbread template to use for clay.) But it takes a lot more prep and planning to do architectural forms; this is a multi-day undertaking every single time.

The most significant thing is that you have to prepare your slabs in advance. The stuff I made today was using slabs I rolled out (and covered with plastic, to keep from drying too fast) on Saturday; what I made on Saturday was using slabs from Wednesday. There's not a set magic amount of time, because dryness will depend on temperature and humidity where you are. But you want to wait until your slabs are a bit shy of leather hard. You need them to hold shape when you cut them and not instantly dent when you handle them. Your slabs also need to be thick enough to hold structure too--I work between about a half and a quarter inch thick, depending on what I'm making.

You can see here how these pieces are holding themselves upright. that is not fresh floppy clay.

That also means that you need to be slipping and scoring generously, because you're attaching pretty-dry clay to pretty-dry clay, and you may also have to mend cracking as things dry.

It helps if you also pay attention to how real architecture works. Clay is not a material that has a lot of tensile strength and you have to remember that it will go through a phase in the kiln where the heat makes it somewhat malleable again, so unsupported spans are going to slump. Open areas may require rafters or beams made of clay; the bigger you get, the more you will need to support your structures over long stretches.

Finally, dry slowly, wrapped in plastic. Your joints are going to be wetter than everything else and the humidity needs to equalize in order to avoid cracking.

'the inflatable sprach pavilion by veech media architecture outlines a new niche for tensile architectonic materials' in ultra materials: how materials innovation is changing the world - bradley quinn (2007)

Comprehensive Guide to Stainless Steel Sheets, Coils, and Decorative Finishes

Stainless steel is a powerful and versatile material used in many industries due to its durability, corrosion resistance, and aesthetic appeal. Among the most common forms of stainless steel are sheets, coils, perforated sheets, and textured and embossed varieties. Each form has its unique benefits and uses, making it a go-to material for construction, automotive, architecture, and other sectors.

In this guide, we will delve deeper into these types of stainless steel products, their properties uses, and why they are essential in various industries.

1. Stainless Steel Sheets: A Foundation for Versatility and Strength

Stainless steel sheets are flat, thin pieces of steel that are widely used in everything from structural components to household items. They come in a variety of grades, thicknesses, and finishes, allowing for a wide range of applications.

Key Benefits:

Corrosion Resistance: Stainless steel sheets are resistant to rust, making them ideal for outdoor and harsh environments like marine applications or chemical industries.

Strength and Durability: The high tensile strength of stainless steel sheets ensures they can handle heavy loads and extreme conditions without compromising integrity.

Aesthetic Appeal: Stainless steel sheets provide a sleek, modern look and are commonly used in architecture and design for both functional and decorative purposes.

Hygienic and Easy to Clean: The smooth surface of stainless steel makes it easy to clean and maintain, which is why it’s the material of choice for food processing, healthcare, and pharmaceutical industries.

Applications of Stainless Steel Sheets:

Construction: Stainless steel is used for roofing, wall cladding, and reinforcement in buildings. It’s also used for structural components like beams and columns.

Kitchen and Appliances: From countertops and sinks to industrial refrigerators, stainless steel sheets are essential for hygiene, durability, and ease of maintenance.

Automotive and Aerospace: Stainless steel is commonly used for body panels, exhaust systems, and engine components in vehicles, as well as structural elements in aircraft.

2. Steel Coils: Flexibility and Efficiency in Manufacturing

Steel coils are large, rolled pieces of steel that are typically cold-rolled or hot-rolled and can be processed into a variety of shapes and sizes. These coils are widely used in the manufacturing process and are known for their ability to be easily handled and formed into different products.

Key Benefits:

Efficient Manufacturing: Steel coils reduce waste by allowing manufacturers to process materials in bulk, cutting down on costs and energy use.

Strong and Resilient: Steel coils maintain their integrity even under high pressure, making them suitable for a wide variety of demanding applications.

Easy to Transport: The coil form makes it easier to store and ship large quantities of steel at once.

Applications of Steel Coils:

Automotive: Steel coils are used to produce parts such as chassis, body panels, and structural components.

Construction: Coils are used for making reinforcement bars, metal sheets for roofing, and structural beams.

Appliances: Steel coils are often turned into components for household items such as refrigerators, washing machines, and dishwashers.

3. Stainless Steel Perforated Sheets: Functional and Decorative Patterns

Perforated stainless steel sheets are created by punching holes into the steel, resulting in a material that has a unique pattern of small holes. These perforations can vary in size, shape, and spacing, making perforated stainless steel highly customizable for different purposes.

Key Benefits:

Improved Ventilation and Light Transmission: Perforated sheets are widely used in applications where airflow, light, or sound is needed. For example, they can be used for air filtration systems or soundproofing materials.

Aesthetic Design: The perforated patterns add a decorative element to the material, making it an ideal choice for modern architecture and interior design projects.

Weight Reduction: The holes reduce the overall weight of the material, which is crucial in industries like transportation and packaging.

Applications of Stainless Steel Perforated Sheets:

Architectural Design: Used in facades, wall panels, and ceiling tiles, perforated sheets are valued for their appearance and functionality.

Industrial Applications: Perforated sheets are common in the construction of filtration systems, industrial grilles, and even security barriers.

Furniture and Interiors: They are used for shelving, decorative partitions, and custom-made furniture elements.

4. Textured Stainless Steel: Adding Dimension and Functionality

Textured stainless steel refers to sheets that have been treated to produce a pattern or finish that gives the metal a tactile and visual appeal. Common textures include brushed, hammered, or patterned finishes, which enhance the material’s functionality and aesthetic qualities.

Key Benefits:

Improved Grip and Slip Resistance: Some textured finishes, like brushed or hammered, add traction, making them ideal for use in high-traffic areas, walkways, and stair treads.

Unique Visual Appeal: The texture creates a dynamic, modern look that adds character to both commercial and residential projects.

Durability: The texture enhances the surface, making it more resistant to wear and tear, scratches, and other damage, which is perfect for areas that see a lot of use.

Applications of Textured Stainless Steel:

Interior Design: Used for decorative wall panels, countertops, and accent pieces, textured stainless steel elevates the look of modern homes and offices.

Public Spaces: Textured finishes are perfect for use in public areas like transit stations, airports, or malls due to their slip-resistant properties.

Transport and Automotive: In vehicles, textured stainless steel is often used in non-slip flooring, particularly in trains and buses.

5. Embossed Stainless Steel Sheets: Adding Depth and Dimension

Embossed stainless steel sheets feature a raised design, creating a 3D effect that adds a tactile quality to the material. These designs can range from simple geometric patterns to intricate, decorative motifs. Embossed stainless steel provides both functionality and artistic appeal.

Key Benefits:

Enhanced Durability: The embossing process makes the material thicker and more resistant to damage from dents, scratches, and wear, which extends its lifespan.

Aesthetic Flexibility: Embossed stainless steel is widely used in high-end design applications due to its unique appearance and dimensional qualities.

Concealing Imperfections: The raised designs help to mask imperfections like scratches, fingerprints, or smudges, maintaining the material’s aesthetic quality over time.

Applications of Embossed Stainless Steel:

Interior Design: Commonly used for decorative wall panels, cabinet doors, and countertops.

Automotive Industry: Embossed stainless steel is used for interior trims, dashboards, and decorative moldings in vehicles.

Consumer Products: Common in appliances, elevator panels, and furniture, where both durability and a premium look are desired.

Choosing the Right Stainless Steel Product for Your Project

To select the right stainless steel material for your project, consider the following:

Determine Your Application Needs: Identify whether your project requires a focus on aesthetics, strength, corrosion resistance, or a combination of these features.

Consider the Environment: For high-corrosion environments, choose stainless steel types like 316, which offer enhanced resistance to rust and stains.

Thickness and Finish: The thickness of the material will determine its strength, while the finish will impact both its appearance and functionality (e.g., brushed, polished, or embossed).

Customization Requirements: Perforated, textured, or embossed designs can be customized to fit specific project requirements.

Conclusion: The Power of Stainless Steel in Modern Applications

Stainless steel products, including sheets, coils, perforated sheets, textured, and embossed varieties, are indispensable in today's world. Whether you're designing a sleek kitchen, building a durable structure, or developing innovative automotive parts, stainless steel offers unmatched versatility, strength, and visual appeal. Understanding the different types of stainless steel products and their specific applications will help you make the best material choice for your needs.

With the right selection, stainless steel will continue to provide long-lasting, reliable, and stylish solutions across industries.

For help selecting the perfect stainless steel product for your project, feel free to reach out. Our experts are here to assist you in making the most informed choice!

The Versatility of Tensile and Tension Fabric Structures in Modern Architecture

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The Commonly Used Metal 3D Printing Materials

Metal 3D printing uses a variety of metal powders, wires, and even liquid resins infused with metal. Almost any metal can be 3D printed, from stainless steel to nickel-based alloys, and in practice, about 8 are most commonly used. The most common question about metal 3D printing is: Will the final part have the same mechanical properties as a machined, moulded or forged metal part? The answer is yes, and sometimes even better mechanical quality, but it depends a lot on the metal 3D printing technology you use, the type of feedstock used, post-processing and the shape of the part. In addition, the comparison depends on the aspects you are concerned about: for example, tensile strength, static load strength, high cycle fatigue, and so on.

In general, the material properties of metal parts made by metal bond jetting are equivalent to those of metal parts produced by metal injection moulding, and it is one of the most widely used manufacturing methods for the mass production of metal parts. These 8 metal alloys below are just the beginning of what is possible today as metal material producers continue to push the boundaries and customize metal alloys for specific needs using specific metal 3D printing technologies.

1.Stainless Steel Feature: All-round Stainless steel is not the material most commonly used in 3D printing, but many alloy varieties. The first two are 316L and 17-4 PH, but also 304L, 15-5 PH, 420, 254, PH1, GP1, 630, and 410 can be printed, as well as custom blends produced by material manufacturer. These steels are specifically designed to resist corrosion. They are a lightweight and affordable metal that is ideal for 3D printing. This is because it is faster and cheaper than traditional methods and can print small batches and complex parts. 3D printing is the preferred option for companies that need a single tool or several replacement parts. Stainless steel can be used in almost any type of 3D printing, from economical wire for extruded 3D printing on benchtop machines to powder for binder jetting and laser powder bed fusion, and even resin.

2.Tool Steel Feature: High hardness, good wear resistance Tool steels, like stainless steels, come in different varieties with different tensile strengths, ductility, hardness and other properties. Tool steels are a variety of alloy steels designed specifically for the manufacture of tools. They are known for their hardness, wear resistance and ability to hold a cutting edge at high temperatures. This 3D printing steel is commonly used in the manufacture of injection mould inserts, aerospace components, military applications, manufacturing tools, as well as construction and architecture. The main advantage of 3D printed tool steel is not only its strength, but also its unique ability to create parts with internal channels (e.g. cooling channels in moulding tools) and lattice fillings that cannot be manufactured by traditional methods.

3.Low-Alloy Steel All 3D printing steels are alloys, but this category includes steels with low or less than 5 per cent of other elements. These low alloy steels are designed to have higher mechanical properties and greater resistance to wear and corrosion than other steels which are commonly used in automotive, aerospace and structural applications.

4.Aluminum Feature: Lightweight and corrosion resistant For aerospace, automotive and industry, the design freedom and cost efficiency of 3D printing further enhances the lightweight and chemical resistance of aluminum components. The use of aluminum and aluminum alloys in 3D printing is surging because the metal is economical and easy to 3D print. Like most metals, aluminum can be used as wire or powder for a variety of 3D printing techniques. Aluminium has good chemical resistance, is very light and has one of the best strength-to-weight ratios of any metal. Combined with silicon and magnesium, it is the choice of many in the aerospace and automotive industries because of its ability to withstand harsh conditions.

5.Titanium Feature: Lightweight and biocompatible As strong as steel but half the weight, titanium is a complex metal that is practically made for 3D printing. Titanium has become one of the most commonly used metals in additive manufacturing, with a wide range of applications in aerospace, joint replacement and surgical tools, racing car and bicycle frames, electronics and other high-performance products. Titanium and titanium-based alloys offer high mechanical strength, high strength-to-weight ratios and better corrosion resistance than stainless steel. It makes rockets and aircraft lighter, thus saving fuel and increasing payload capacity. In the medical industry, 3D printed titanium implants have been successfully used in the spine, hips, knees and extremities due to the inherent biocompatibility and good mechanical properties of the metal, coupled with the ability to customize porous structures with 3D printing, allowing for osseointegration and mass customization for better patient outcomes.

6.Copper Feature: Electrical and thermal conductivity 3D printing using pure copper and space-age copper alloys is available with a range of metal 3D printers and services. You can create rapid copper prototypes using copper filament on an FDM 3D printer and large copper rocket boosters using copper alloys on a laser powder bed fusion 3D printer. There is also copper wire and copper resin for micro 3D printing. In fact, copper plays a huge role in the global sustainable development goals as a key component of electric motors, charging infrastructure, solar energy and batteries.

7.Nickel Alloy Feature: Extreme environments resistant Nickel-based alloys and "high-temperature alloys" are known for their excellent high-temperature strength, corrosion and oxidation resistance. These alloys retain their strength and mechanical properties at high temperatures. They are commonly used in demanding applications such as aerospace, gas turbines, chemical processing and marine environments. In recent years, these alloys have also become increasingly popular in 3D printing, especially in the aerospace and automotive industries. When referring to nickel alloys, you may hear the term inconel. Inconel is the trade name for a range of nickel-chromium-based high-temperature alloys, including IN625, IN718 and IN939. Nickel alloys are generally more expensive than other materials such as steel and aluminium and may not be suitable for low temperature applications.

8.Cobalt Chrome Feature: High temperature and corrosion resistance 3D printed cobalt chrome has a high strength-to-weight ratio and excellent corrosion resistance, making it a good material choice for aerospace components and industrial machinery. It is also biocompatible and is often used in orthopaedic implants, dental prosthetics and medical devices that require long-term contact with biological tissue. Cobalt-chromium alloys can be processed using additive manufacturing techniques such as selective laser melting (SLM) or electron beam melting (EBM). This allows complex geometries and customized parts to be produced with minimal material waste, making it attractive to industries adopting advanced manufacturing techniques.

To sum up, metal 3D printing uses a wide range of metal powders and wires, including stainless steel, tool steel, etc. to print complex parts with superior mechanical properties. Commonly used metals in 3D printing include aluminum, titanium, copper, nickel alloys, tool steel, cobalt-chromium alloys, stainless steel for aerospace, medical and jewellery applications and more.

Manta Rays by Vincent Callebaut Architectures @vincentcallebautarchitectures, A Sustainable Cluster of Ecolodges in Organic Tensile Membrane Structures, #Bali, Indonesia Read more: Link in bio! Vincent Callebaut Architectures: For the project “Manta Rays’, a sustainable cluster of ecolodges in Tensile Membrane Structures (TMS), form-finding was the first step in the design process, in which the structure has adopted a unique equilibrium shape based on the initial configuration of the structure and the applied initial prestress… #indonesia #sustainable #архитектура www.amazingarchitecture.com ✔ A collection of the best contemporary architecture to inspire you. #design #architecture #amazingarchitecture #architect #arquitectura #luxury #realestate #life #cute #architettura #interiordesign #photooftheday #love #travel #construction #furniture #instagood #fashion #beautiful #archilovers #home #house ‎#amazing #picoftheday #architecturephotography ‎#معماری (at Bali, Indonesia) https://www.instagram.com/p/CpItTtJOAM6/?igshid=NGJjMDIxMWI=

Tensile Membrane - McCoy

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