Aluminum Standing Seam Solar Clamps
Standing Seam Solar Clamps are specialized devices designed to securely attach solar panels frame to standing seam metal roofs. These clamps do not require penetrating the roof structure. Instead, they firmly grip the raised seams of the metal roof to provide a stable mounting solution. When paired with mounting rails, they offer an even more secure and efficient installation. This non-invasive method ensures both the stability of the solar system and the preservation of the roof’s integrity, maintaining its waterproofing and longevity.
Applicable Roof Types:
Suitable for standing seam metal roofs, including straight standing seams, curved seams, and T-shaped seams.
Commonly used on industrial facilities, warehouses, commercial buildings, and residential houses with metal roofs.
Types of Standing Seam Solar Clamps
Aluminum Standing Seam Solar Clamps come in a variety of types to accommodate different roof profiles and installation needs. From vertical seam clamps and T-type seam clamps to curved seam clamps and adjustable clamps, each type is specifically designed to securely attach to various standing seam roof structures. Additionally, there are rail-compatible clamps for systems requiring rails and non-rail clamps for direct mounting solutions. These diverse options ensure that aluminum standing seam solar clamps can be used for a wide range of roof designs, offering flexibility, reliability, and compatibility with different solar mounting systems.
Features of Standing Seam Solar Clamps
Easy Installation
These aluminum clamps are designed for quick and easy installation, requiring only basic tools and no complex procedures. Their simple design allows for a fast installation process, reducing labor costs while ensuring the stability and quality of the solar mounting system.
No Roof Penetration
Aluminum Standing Seam Solar Clamps do not require drilling into the roof structure to secure solar panels. They rely on a clamping mechanism that firmly grips the standing seam, preserving the structural integrity of the roof. By avoiding penetration, the roof’s waterproofing layer remains intact, eliminating the risk of leaks and helping maintain the overall service life of the roof.
High Stability
Made from high-strength aluminum alloys, these clamps provide excellent stability and durability. They are specifically designed to withstand challenging weather conditions, such as strong winds and heavy snow loads, offering long-term reliability and performance for solar panel mounting applications.
Corrosion Resistance
The clamps are made from high-quality aluminum alloys, such as 6063-T5 or 6005-T6, and feature surface treatments like anodizing. This ensures exceptional resistance to corrosion, making them ideal for long-term use in outdoor environments, including harsh conditions like coastal or humid areas.
Great Versatility
Aluminum Standing Seam Solar Clamps are compatible with a wide range of standing seam roof types. They can accommodate various seam shapes and sizes, such as vertical, curved, or T-shaped seams. Moreover, their universal design supports different solar mounting systems, including individual panels or rail-based systems, making them highly adaptable for diverse project requirements.
Flexible Layouts
These clamps support both horizontal (landscape) and vertical (portrait) orientation of solar panels. Such flexibility allows them to adapt perfectly to various roof designs and project needs, providing reliable solutions for different installation scenarios.
Process of Aluminum Standing Seam Solar Clamps
The production of aluminum standing seam solar clamps involves multiple steps, starting from the selection of high-quality aluminum alloys to the final finishing processes.
Alloy Selection
The manufacturing process begins with the choice of aluminum alloy. Commonly used alloys include 6063-T5 and 6005-T6, which are known for their excellent strength, corrosion resistance, and machinability. These alloys ensure the durability and long-term performance of the clamps, even in harsh outdoor conditions.
Aluminum Extrusion
Once the alloy is selected, it undergoes the extrusion process. Aluminum billets are heated to a malleable state and then forced through a steel die to create the desired profile for the clamp. This method creates strong and lightweight components with a consistent shape that meets precise design specifications.
Cutting to Length
After extrusion, the aluminum profiles are cut into appropriate lengths based on the dimensions and design requirements of the clamp. This cutting process is carried out with high precision to ensure uniformity and minimize wasted material.
CNC Machining and Customization
The cut aluminum pieces are further machined using CNC (Computer Numerical Control) equipment. This step refines the shape, drills necessary mounting holes, and grooves the clamp surfaces for better grip on the standing seam roof. CNC machining ensures accuracy, consistency, and adherence to specific designs.
Deburring and Surface Polishing
After machining, the clamps are deburred to remove any sharp edges or surface imperfections, ensuring they are safe to handle and install. Polishing or brushing may also be done to enhance the surface quality before further treatments.
Surface Treatment
To enhance corrosion resistance and appearance, the clamps undergo surface treatment processes such as:
- Anodizing: Protects the aluminum from corrosion and provides a smooth, durable finish.
- Powder Coating: Adds a hard, protective layer for additional strength and can provide specific color finishes if required.
This step ensures that the clamps remain durable in outdoor environments, including extreme weather and moisture.
Assembly
Some aluminum standing seam clamps require the attachment of additional components, such as stainless steel screws, bolts, or rubber protective pads. These materials are carefully selected to complement the aluminum and enhance the clamp’s overall function.
Compatible Standing Seam Roof Types
Standing seam solar clamps are designed to fit various standing seam roof types. Below are the common types and their compatibility:
1. Vertical Standing Seam Roofs:
Characterized by narrow, vertical edges.
Clamps fit tightly, ensuring high stability after installation.
2. T-Shaped Standing Seam Roofs:
Features a wide top edge in the seam design.
Clamps are designed to securely lock with the wider seam.
3. Curved Standing Seam Roofs:
Rounded edge design.
Clamps can include rubber pads or specialized contact surfaces to fit curved edges.
4. Flat-Topped Standing Seam Roofs:
Features lower, flat seams.
Adjustable-height clamps are ideal for secure attachment to this type of roof.
Manufacturing Capabilities for Solar Clamps
We specialize in producing high-strength aluminum standing seam solar clamps. From alloy selection to extrusion, precision machining, and surface treatment, our advanced processes deliver durable, weather-resistant products. Customization and strict quality control ensure clamps meet exact project requirements with exceptional performance.
Our production facility houses over 40 advanced extrusion lines, featuring cutting-edge equipment such as a powerful 6000-ton extrusion press. This enables the creation of aluminum profiles in various sizes and forms, ranging from standard industrial applications to specialized products like thermal break profiles for high-end doors and windows. The flexibility of our extrusion capability ensures we can cater to a broad spectrum of industries, including construction and precision engineering.
We possess the expertise to design and produce extrusion molds in-house, ensuring precision and efficiency in aluminum profile manufacturing. Our experienced team works closely with clients to develop custom molds based on drawings or samples, ensuring optimal performance for their specific requirements. Typically, the mold production process takes about 7 days, after which we provide samples for client confirmation before beginning full-scale production.
For superior durability and visual appeal, we offer various surface treatment solutions. These include anodizing for added corrosion resistance, powder coating for vibrant finishes, fluorocarbon coating for enhanced weather resistance, and wood grain transfer technology for elegant, natural-looking designs. These treatments are customizable to fit specific aesthetic and functional needs, ensuring that profiles not only perform well but also look exceptional.
To provide complete aluminum profile solutions, we offer extensive further processing capabilities. Our services include CNC machining, milling, threading, drilling, precision cutting, punching, welding, and assembly. This range of fabrication options allows us to deliver ready-to-use profiles tailored to exact project specifications, offering unmatched flexibility and reliability to our customers.
Standing Seam Solar Clamps Solution
At HTS NEW MATERIALS, we focus on producing custom aluminum standing seam solar clamps to meet diverse project requirements. With advanced facilities and over 40 extrusion lines, we deliver precision-engineered solutions tailored for solar applications.
Our aluminum clamp services include:
- Tailored Designs: Develop custom profiles to fit seamlessly with diverse standing seam roof systems.
- Durable Surface Finishes: Improve durability and corrosion resistance with anodizing, powder coating, and polishing.
- Precision Machining: Achieve highly accurate dimensions using advanced cutting, drilling, and milling techniques.
- Flexible Temper Options: Select from T5, T6, and other heat treatment options for optimal mechanical strength.
Contact us today to get started on your custom aluminum solar clamps!
RFQ of Extruded Aluminum Profile
HTS New Materials, based in Jiangxi Province, China, is a leading aluminum extrusion manufacturer with over 40 advanced production lines and powerful equipment, including a 6000-ton extrusion press. We produce a wide range of aluminum profiles for industries such as construction, industrial applications, and high-end doors and windows, including thermal break profiles. Our services extend to comprehensive surface treatments like anodizing, powder coating, fluorocarbon coating, and wood grain transfer, as well as advanced machining and fabrication capabilities such as CNC machining, drilling, and welding. Committed to quality and innovation, we deliver tailored aluminum solutions to meet the diverse needs of clients globally.
The primary aluminum alloys used for extrusion belong to the 6xxx series, specifically 6061, 6063, 6060,6082 and 6066. These alloys are highly favored due to their excellent extrudability, good mechanical properties, and corrosion resistance.
- 6061: A versatile alloy with higher strength, suitable for structural and transportation applications.
- 6063: Known as the “architectural alloy,” it offers excellent surface finish and is widely used for decorative and structural purposes.
- 6060: Similar to 6063 but with slightly lower strength, ideal for intricate and thin-walled profiles.
- 6066: A high-strength alloy within the 6xxx series, often used in more demanding structural applications.
- 6082: A strong alloy with better mechanical properties compared to 6061 and excellent corrosion resistance, commonly used in high-load structural applications and in marine environments.
The 7xxx series alloys, such as 7075, are used in applications requiring extremely high strength and performance, such as aerospace and high-end engineering projects. However, they have lower corrosion resistance when compared to 6xxx alloys and are therefore less commonly used for general extrusion applications.
While 1xxx, 3xxx, and 5xxx series alloys can be extruded, they are generally used infrequently for extrusion due to their lower strength or other limitations compared to 6xxx and 7xxx alloys. These series are mainly used in specialized applications. Additionally, if extrusion products from these series are requested, higher minimum order quantities (MOQ) are typically required for custom production, as their demand is relatively low.
The heat treatment of aluminum extrusions determines their mechanical properties, strength, and suitability for specific applications. Among the various heat treatment methods, T5, T6, and T66 are the most commonly used. Here’s an in-depth look:
| Heat Treatment State | Cooling Method | Strength | Key Features and Benefits | Applications |
|---|---|---|---|---|
| T5 | Air cooling (fan) | Moderate | Adequate strength, good dimensional stability, used for architectural purposes. | Windows, doors, curtain walls, building structures. |
| T6 | Water quenching (fast) | High | Higher strength and hardness, ideal for industrial and structural uses. | Automotive, aerospace, machinery, transport parts. |
| T66 | Water quenching (fast) | Very high | Optimized mechanical properties for higher strength and performance demands. | Automotive, rail transportation, high-end machinery. |
Other Heat Treatment States
- T4: Solution heat-treated and naturally aged. Used in applications requiring intermediate strength and enhanced formability.
- T7: Overaged for better stress-corrosion resistance, often used for aerospace and marine purposes.
- O (Annealed): Very soft condition suitable for extensive forming or bending requirements.
- F (As-Fabricated): No heat treatment applied, used in non-critical applications with low strength requirements.
Aluminum extrusions undergo various surface treatments to enhance aesthetics, corrosion resistance, and functionality. Here are the common surface treatment methods used in the industry:
Main Surface Treatment Methods
Anodizing (Oxidation)
- Process: A controlled electrochemical process that forms a protective oxide layer on the aluminum surface.
- Features:
- Provides a durable, corrosion-resistant, and environmentally friendly finish.
- Produces a metallic finish with a variety of natural tones (e.g., silver, black, bronze).
- Improves surface hardness and protects against scratching.
- Applications: Architectural frames, decorative profiles, heat sinks.
Electrophoresis Coating (E-Coating)
- Process: After anodizing, the aluminum is coated with paint using an electrochemical process.
- Features:
- Enhances corrosion resistance and offers a smooth, glossy finish.
- Provides more color and texture variation compared to anodizing alone.
- Applications: Furniture profiles, indoor architectural components.
Powder Coating
- Process: Electrostatic application of powder paint, followed by curing under high temperature to form a solid coating.
- Features:
- Wide variety of colors and textures.
- Excellent weather resistance and corrosion protection.
- Cost-effective and highly versatile.
- Applications: Outdoor frames, fences, railings, general industrial use.
PVDF Coating (Polyvinylidene Fluoride)
- Process: A specialized fluoropolymer coating is applied in multiple layers, commonly over a pretreated surface.
- Features:
- Exceptional weather resistance and UV stability.
- Highly durable, resistant to fading, chalking, and chemical damage.
- Ideal for long-term outdoor use.
- Applications: Curtain walls, high-performance architectural facades.
Wood Grain Transfer Printing
- Process: A heat-transfer printing process that applies a wood grain effect onto a pre-coated aluminum surface.
- Features:
- Mimics the appearance of wood while retaining aluminum’s durability.
- Lightweight and weather-resistant alternative to natural wood.
- Applications: Furniture, decorative coverings, outdoor panels.
Film Lamination
- Process: Adhesive application of a protective or decorative film onto the aluminum surface.
- Features:
- Provides a glossy, textured, or patterned finish.
- Often used for applications requiring specific textures like marble or leather effects.
- Applications: Interior decor, windows.
Pre-Treatment Processes
Prior to surface treatment, the aluminum surface can be pre-processed for specific textures or finishes:
Brushing/Polishing
- Removes surface imperfections and creates a smooth, reflective finish.
- Often used for decorative purposes.
Sanding/Grinding
- Produces a matte or satin finish by applying abrasives.
Shot Blasting/Sandblasting
- Sprays abrasives at high velocity to create a textured surface, often used before anodizing for a uniform appearance.
Stretching and Tension Leveling
- Straightens the aluminum profile and improves shape accuracy after extrusion.
Cost and Durability Comparison Table
| Treatment Method | Process Cost | Surface Durability | Weather Resistance | Applications |
|---|---|---|---|---|
| Anodizing (Oxidation) | Medium | Very Durable | High | Architectural frames, industrial parts. |
| Electrophoresis (E-Coating) | Medium-High | Durable | Medium | Furniture, indoor parts, decorative uses. |
| Powder Coating | Medium | Highly Durable | High | Outdoor frames, industrial fixtures. |
| PVDF Coating | High | Extremely Durable | Excellent | Curtain walls, high-end exteriors. |
| Wood Grain Printing | Medium | Moderate (topcoat dependent) | Medium | Decorative panels, furniture. |
| Film Lamination | Low-Medium | Moderate | Low | Indoor decorations, windows. |
| Brushing/Sandblasting (Pre-Treatment) | Low | Not Applicable (Preparation only) | N/A | Preparation for further treatment. |
. Anodizing (Oxidation)
- Common Colors:
Natural silver
Black
Champagne
Light bronze
Dark bronze
Gold
2. Electrophoresis Coating (E-Coating)
- Common Colors:
Black
Champagne
Light bronze
Dark bronze
Custom metallic colors
3. Powder Coating
- Colors:
Can match any color based on the RAL color chart.
Offers textures like matte, gloss, satin, and custom finishes.
4. PVDF Coating (Polyvinylidene Fluoride)
- Colors:
Also customizable using the RAL color chart.
High-end finishes with matte or glossy effects.
5. Wood Grain Transfer Printing
- Colors and Patterns:
Mimics various wood types (e.g., oak, walnut, teak, mahogany).
Custom patterns available based on provided samples.
6. Film Lamination
- Colors and Patterns:
Includes textures like marble, leather, and solid colors.
Custom finishes and patterns based on provided samples.
Pre-Treatment Options (Impact on Final Color)
- Brushing/Polishing: Produces smooth or reflective metallic surfaces.
- Sandblasting: Adds a rough, matte texture before the final surface treatment.
We provide a wide range of machining services for aluminum extrusions to meet specific requirements. These include cutting off/section removal, slotting, drilling holes, tapping threads, bending, and localized stamping to create deformations. For example, we can trim extruded profiles to custom lengths, mill precise grooves, create threaded holes for fasteners, bend profiles into specific shapes, or apply localized stamping to achieve custom forms or deformation.
In addition to these processes, we also offer TIG/MIG welding to join aluminum components for a solid structure. Furthermore, our services include assembly of common accessories, such as brackets, corner connectors, screws, hinges, end caps, and rubber seals, providing complete and ready-to-install profile solutions tailored to your project needs. This ensures that we can handle everything from simple cuts to highly customized fabrication and assembly, all with precision and efficiency.
For custom aluminum extrusion projects, we accept a variety of drawing formats, including CAD files, STEP files, and PDF files. However, for extrusions that require additional machining processes, it’s recommended to provide STEP files, as they ensure precise 3D modeling for machining accuracy.
While PDF files are acceptable, converting them into CAD drawings may result in the loss of certain details, requiring us to manually redraw the design, which could increase lead time. For the fastest and most accurate quotation, we recommend providing CAD files (e.g., DWG/DXF) and STEP files to ensure efficient design evaluation and pricing.
Mold fees are an essential part of the custom aluminum extrusion process. Since every order requires a uniquely designed mold tailored to specific requirements, these molds cannot be used for other products. Therefore, the mold fee is necessary and non-negotiable.
We require 100% upfront payment of the mold fee before mold development begins to ensure timely production. However, as a token of appreciation for your support, we offer a refund of the mold fee or equivalent discounts once the order reaches a certain production volume. Specific policies can be discussed based on your order volume and collaboration details.
Our minimum order quantity (MOQ) varies depending on the size of the product. For smaller-sized products, the MOQ is typically 500kg, while for larger-sized products, it is 2 tons.
We will specify the exact MOQ requirements during the quotation process. If your order quantity does not meet the MOQ, we can still arrange production, but an additional fee will be applied to cover mold preheating and production setup time. Rest assured, this extra fee will be reasonable, and we aim to keep it as minimal as possible to ensure smooth cooperation.
Packaging can be customized according to your needs. Options include using protective film or paper to separate and protect the surface, or foam film for additional surface protection. Products can be palletized or packed into cartons, and the quantity per pallet or carton can be specified by the customer.
The standard packaging involves bundling several pieces together with plastic wrap and then securing them onto pallets. Any packaging requirements beyond the standard will be accommodated, and the associated costs will be clearly provided to the customer.
Mold production typically takes 7 days. After the sample is confirmed, producing a full container load of 26 tons generally requires 14 days for extrusion alone. If surface treatment is required, an additional 3 days will be needed. For machining, extra time will be required depending on the complexity and volume of the machining work. The exact additional time for machining will be determined based on the specific processing requirements.
Aluminum profiles are naturally corrosion-resistant due to the formation of a thin, protective oxide layer when exposed to air or water. This oxide layer is stable and self-repairing, meaning that even if the surface is scratched or cut (such as at exposed ends or during processing), the aluminum will not rust or corrode like iron or steel. Instead, the exposed areas will quickly form a new oxide layer, providing continuous protection against further oxidation.
With proper design, installation, and maintenance, aluminum profiles can last for decades, even in challenging environments. For example, untreated aluminum can easily withstand 20-30 years in outdoor applications, while profiles with surface treatments like anodizing or powder coating can last even longer, often exceeding 50 years. This makes aluminum an excellent choice for applications where durability and long-term performance are essential.
The price of aluminum profiles consists of several components: raw material costs, extrusion processing fees, surface treatment fees, machining costs, and additional packaging fees. Among these, the cost of aluminum as a raw material tends to fluctuate frequently, while other fees remain relatively stable. Due to these fluctuations, our quotations are typically valid for 7 days.
Pricing can be structured in different ways depending on the product and requirements. It can be calculated by weight (e.g., cost per ton), by length (e.g., cost per meter), or by piece (e.g., cost per unit). For products involving extensive machining, such as heat sinks, pricing is generally calculated on a per-piece basis to accurately reflect the additional processing costs. This flexible pricing approach ensures the quote is tailored to the specific needs of the customer.
We can manufacture aluminum profiles in compliance with technical requirements that meet European standards (EN), American standards (ASTM/AA), or other standards as specified by the customer. Custom production is tailored to ensure that the profiles meet the specific standard requirements requested.
Our production equipment is designed for the metric system. If the drawings provided are in the imperial system, we will convert them into metric units for production to ensure accuracy.
It is important to note that while we can machine imperial-threaded holes for fasteners, if you require us to supply matching imperial fasteners, they may not always be available in stock. Custom orders for imperial fasteners typically require a large volume for production. Please consider this when planning your project.
The majority of aluminum profiles we produce are custom-made and do not have existing molds. However, for some standard profiles such as square tubes, round tubes, U-channels, and T-SLOT profiles, we do have existing molds, and in some cases, small quantities in stock.
For certain specialized profiles, like ladder aluminum profiles, we have some molds that may be used across similar designs. For curtain wall and window/door profiles, we have developed a number of molds, though most are tailored to the Chinese domestic market.
Additionally, for furniture-related profiles, such as cabinet handles, cabinet door frames, skirting boards, tile edge trims, wall panel trims, stair anti-slip strips, partition aluminum profiles, corrugated aluminum profile (like long-span profiles), LED light channels, and photovoltaic frame supports, we offer a selection of ready-made designs and some existing molds.
While we have limited stock of standard profiles like square tubes, round tubes, U-channels, and T-SLOT profiles, we recommend contacting our sales team for details on availability and further assistance.
Other Aluminum Extrusions
