HEAVY EQUIPMENT BULDOZER HEAVY EQUIPMENT TITLE HEAVY EQUIPMENT HEADER CLI LOGO

Overview

AEROSPACE HERITAGE

CLI has an unblemished history of working closely with many high-profile aerospace enterprises – creating highly complex and extremely durable products as an excellent substitute for traditional glass products.

Indisputably, no other industry demands higher standards of excellence and safety than aerospace. This is where CLI has secured its long-standing record of excellence – delivering exceptional products designed to perform flawlessly for years, even when subjected to extreme weather and intense forces.

AH-64 APACHE FROM ABOVE

INNOVATIVE PRODUCTS

At CLI, we are focused on creating highly complex and extremely durable products – ideal solutions for modern lightweight vehicles and a more sustainable environment. Equally, our products are designed and built to achieve the highest performance and safety standards.

There has never been a time in history where technology has advanced at such a rapid pace. CLI is proud to be among the innovators fueling these advances. The cornerstone of our brand ethos is creating award-winning, exceptionally lightweight products. Perhaps more importantly, our designs are built on the premise to be highly resilient and safe in application – products perfectly suited for heavy equipment and hazardous working environments.

CROP DUSTER

DEVELOPMENT OF NEW RAW MATERIALS

Amongst the many advances in ‘new’ materials are modern plastic polymers which in recent years have evolved dramatically; advances in composites which were unimaginable just thirty years ago. Where transport is concerned, there is a dramatic revolution taking place, with a prime focus on the environment and new generation vehicles. The key focus is on creating vehicles which operate with exceptional fuel efficiency.

LIGHT-WEIGHT CONSTRUCTION

Emphasis is being placed on developing products of outstanding durability and incorporating additional benefits such as improved safety, lighter weight, and lower manufacturing costs. This is where our transparencies can play an important part in this revolution.

HEAVY EQUIPMENT AND SAFETY

Perhaps no other feature is more important to heavy equipment than safety. Windows and windshields must afford excellent visibility to the operator yet ensure full protection from the daily rigors when operating within hazardous working environments.

F1 SUPERBOAT WINDSHIELD

In many cases where safety glass is used, a cage is placed around the operator to offer assured protection. These cages are very restrictive, interfering with the operator’s line of sight, thus diminishing visibility.

CLI has an impressive record of producing superb polycarbonate transparencies that are the perfect solution for windows and windshields for aircraft and vehicles operating under extreme conditions or hazardous environments, such as racing cars and deep-sea submarines, super boat racing, or heavy equipment.

For this reason, polycarbonate is always the first choice. Far more durable than safety glass, it can withstand extreme impacts, thus protecting the operator from life-threatening dangers.

Key Advantages of Modern Polymers

Modern polymers such as polycarbonate, acrylic, and specially formulated PVC are extremely lightweight, highly durable, and remarkably strong.

POLYMER vs GLASS TITLE 1Modern polymers have higher impact strength than glass and does not shatter when exposed to high strains or blunt force. Crack resistance is especially valuable – representing just one of the many reasons modern polymers are used for viewing ports on deep-sea submarines. The exterior polymer windows are coated to a hardness comparable to glass. Therefore, these windows resist scratching, and many chemicals commonly used to wash vehicles or clean glass.

Furthermore, laminated glass is also subject to delamination – where the bonding between layers fails – displaying unsightly patterns known as “traveling air pockets.” Aside from being aesthetically unpleasant, over time, these air pockets can seriously diminish visibility around the edges of the affected transparencies.

POLYMER vs GLASS TITLE 2At less than half the weight of glass — (SG: 1.2 vs. 2.45) — modern polymers are an excellent alternative, especially where weight plays a key factor in design. With current trends erring towards ever more efficient, environmentally conscious manufacturing processes for vehicles, designers are becoming ever more focused on shedding as much weight as possible to achieve greater performance and fuel efficiency.

POLYMER vs GLASS TITLE 3Generally, flat unprocessed glass is less expensive to purchase than acrylic. However, the tempered glass used in most vehicles is about equivalent in cost. Nevertheless, formed and/or laminated glass will be far more costly to produce than modern polymers.

If a window is to have a more defined shape, the forming tools for glass are usually steel or ceramic. Tools used for forming polymer windows are generally made of fiberglass-reinforced resin. As such, the difference in tooling costs is substantial, a consideration that becomes far more important for low-volume production.

POLYMER vs GLASS TITLE 4Although glass can be formed into curved shapes – due to its restrictive malleability – the finished shape will be quite limited, with complex shapes being far more challenging and costly to achieve.

By contrast, modern polymers can be easily formed into far more radical compound shapes while retaining excellent optical properties and minimum aberration.

POLYMER vs GLASS TITLE 5Modern polymers transmit more light than glass; in fact, up to 92% of visible light is transmitted through modern polymers. By contrast, mineral glass transmits between 80-90%, depending on the type of glass.

In cases where laminated glass has several layers, such as ballistic formulations, the image observed through the pane tends to adopt a greenish hue, which is not observable in modern polymers.

POLYMER vs GLASS TITLE 6The thermal conductivity of modern polymers is lower than laminated glass. This is advantageous for insulation, resulting in lower running costs for heating and air-conditioning.

New modern polymer formulations also offer 99% UV blocking and up to 40% IR, depending on the tint being used. This is especially important for equipment operating in a hot environment or under strong sunshine. Furthermore, these specialty grades also protect interior electronic components and upholstery from excessive heat and fading.

POLYMER vs GLASS TITLE 7The surface of modern polymers are softer and more easily scratched than mineral glass. However, new technologies have been developed where a hard, silicate coating is applied to the exterior surface of polymer transparencies, affording far superior protection, thus resisting most scratches and making the transparencies impervious to chemical attacks.

SKID STEER

Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industrys standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book.

GLASS vs. POLYMERS COMPARISON CHART

GLASS vs POLYMER COMPARISON CHART

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What We Can Offer You

Our enterprise is expanding to offer our exceptional products to new industries, including agricultural, construction, and commercial vehicles.

Yet, we do not limit our scope to transport. We can design and create products for any enterprise requiring resilient products created from bi-axially stretched acrylics, (MIL-PRF-25690), crack propagation resistant acrylic, cast acrylics (MIL-PRF-8184 and MIL-PRF-5425), coated polycarbonate, and ABS.

FORESTRY EQUIPMENT

Explore Our Products & Services

If you would like to know more about our comprehensive product lines and services, please drop us a line and we shall be delighted to discuss your enterprise’s specific product and design requirements with great interest.

Overview

AEROSPACE HERITAGE

CLI has an unblemished history of working closely with many high-profile aerospace enterprises – creating highly complex and extremely durable products as an excellent substitute for traditional glass products.

Indisputably, no other industry demands higher standards of excellence and safety than aerospace. This is where CLI has secured its long-standing record of excellence – delivering exceptional products designed to perform flawlessly for years, even when subjected to extreme weather and intense forces.

AH-64 APACHE FROM ABOVE

INNOVATIVE PRODUCTS

At CLI, we are focused on creating highly complex and extremely durable products – ideal solutions for modern lightweight vehicles and a more sustainable environment. Equally, our products are designed and built to achieve the highest performance and safety standards.

There has never been a time in history where technology has advanced at such a rapid pace. CLI is proud to be among the innovators fueling these advances. The cornerstone of our brand ethos is creating award-winning, exceptionally lightweight products. Perhaps more importantly, our designs are built on the premise to be highly resilient and safe in application – products perfectly suited for heavy equipment and hazardous working environments.

CROP DUSTER

DEVELOPMENT OF NEW RAW MATERIALS

Amongst the many advances in ‘new’ materials are modern plastic polymers which in recent years have evolved dramatically; advances in composites which were unimaginable just thirty years ago. Where transport is concerned, there is a dramatic revolution taking place, with a prime focus on the environment and new generation vehicles. The key focus is on creating vehicles which operate with exceptional fuel efficiency.

LIGHT-WEIGHT CONSTRUCTION

Emphasis is being placed on developing products of outstanding durability and incorporating additional benefits such as improved safety, lighter weight, and lower manufacturing costs. This is where our transparencies can play an important part in this revolution.

HEAVY EQUIPMENT AND SAFETY

Perhaps no other feature is more important to heavy equipment than safety. Windows and windshields must afford excellent visibility to the operator yet ensure full protection from the daily rigors when operating within hazardous working environments.

F1 SUPERBOAT WINDSHIELD

In many cases where safety glass is used, a cage is placed around the operator to offer assured protection. These cages are very restrictive, interfering with the operator’s line of sight, thus diminishing visibility.

CLI has an impressive record of producing superb polycarbonate transparencies that are the perfect solution for windows and windshields for aircraft and vehicles operating under extreme conditions or hazardous environments, such as racing cars and deep-sea submarines, super boat racing, or heavy equipment.

For this reason, polycarbonate is always the first choice. Far more durable than safety glass, it can withstand extreme impacts, thus protecting the operator from life-threatening dangers.

Key Advantages of Modern Polymers

Modern polymers such as polycarbonate, acrylic, and specially formulated PVC are extremely lightweight, highly durable, and remarkably strong.

POLYMER PERFORMANCE GRAPHIC - MOBILE

POLYMER vs GLASS TITLE 1Modern polymers have higher impact strength than glass and does not shatter when exposed to high strains or blunt force. Crack resistance is especially valuable – representing just one of the many reasons modern polymers are used for viewing ports on deep-sea submarines. The exterior polymer windows are coated to a hardness comparable to glass. Therefore, these windows resist scratching, and many chemicals commonly used to wash vehicles or clean glass.

Furthermore, laminated glass is also subject to delamination – where the bonding between layers fails – displaying unsightly patterns known as “traveling air pockets.” Aside from being aesthetically unpleasant, over time, these air pockets can seriously diminish visibility around the edges of the affected transparencies.

POLYMER vs GLASS TITLE 2At less than half the weight of glass — (SG: 1.2 vs. 2.45) — modern polymers are an excellent alternative, especially where weight plays a key factor in design. With current trends erring towards ever more efficient, environmentally conscious manufacturing processes for vehicles, designers are becoming ever more focused on shedding as much weight as possible to achieve greater performance and fuel efficiency.

POLYMER vs GLASS TITLE 3Generally, flat unprocessed glass is less expensive to purchase than acrylic. However, the tempered glass used in most vehicles is about equivalent in cost. Nevertheless, formed and/or laminated glass will be far more costly to produce than modern polymers.

If a window is to have a more defined shape, the forming tools for glass are usually steel or ceramic. Tools used for forming polymer windows are generally made of fiberglass-reinforced resin. As such, the difference in tooling costs is substantial, a consideration that becomes far more important for low-volume production.

POLYMER vs GLASS TITLE 4Although glass can be formed into curved shapes – due to its restrictive malleability – the finished shape will be quite limited, with complex shapes being far more challenging and costly to achieve.

By contrast, modern polymers can be easily formed into far more radical compound shapes while retaining excellent optical properties and minimum aberration.

POLYMER vs GLASS TITLE 5Modern polymers transmit more light than glass; in fact, up to 92% of visible light is transmitted through modern polymers. By contrast, mineral glass transmits between 80-90%, depending on the type of glass.

In cases where laminated glass has several layers, such as ballistic formulations, the image observed through the pane tends to adopt a greenish hue, which is not observable in modern polymers.

POLYMER vs GLASS TITLE 6The thermal conductivity of modern polymers is lower than laminated glass. This is advantageous for insulation, resulting in lower running costs for heating and air-conditioning.

New modern polymer formulations also offer 99% UV blocking and up to 40% IR, depending on the tint being used. This is especially important for equipment operating in a hot environment or under strong sunshine. Furthermore, these specialty grades also protect interior electronic components and upholstery from excessive heat and fading.

POLYMER vs GLASS TITLE 7The surface of modern polymers are softer and more easily scratched than mineral glass. However, new technologies have been developed where a hard, silicate coating is applied to the exterior surface of polymer transparencies, affording far superior protection, thus resisting most scratches and making the transparencies impervious to chemical attacks.

SKID STEER

Glass vs. Polymers Comparison Chart

Modern polymers such as polycarbonate, acrylic, and specially formulated PVC are extremely lightweight, highly durable, and remarkably strong.

GLASS vs POLYMER COMPARISON CHART

DOWNLOAD BUTTON

What We Can Offer You

Our enterprise is expanding to offer our exceptional products to new industries, including agricultural, construction, and commercial vehicles.

Yet, we do not limit our scope to transport. We can design and create products for any enterprise requiring resilient products created from bi-axially stretched acrylics, (MIL-PRF-25690), crack propagation resistant acrylic, cast acrylics (MIL-PRF-8184 and MIL-PRF-5425), coated polycarbonate, and ABS.

FORESTRY EQUIPMENT

Explore

Our Products & Services

If you would like to know more about our comprehensive product lines and services, please drop us a line and we shall be delighted to discuss your enterprise’s specific product and design requirements with great interest.

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