Condensation Control

The condensation process occurs when warmer moist air comes in contact with cold surfaces such as framing members, windows and other thermally conductive accessories, or the colder region within the insulation itself (if moisture has penetrated the vapor retarder). Warm air, having the ability to contain more moisture than cold air, loses that ability when it comes in contact with cooler surfaces or regions. When this happens, excessive moisture in the air is released in the form of condensation. If this moisture collects in the insulation, the insulating value is decreased.

In dealing with condensation, air may be considered to be a mixture of two gases-dry air and water vapor. One thousand cubic feet of air at 75°F can hold up to 1.4 pints of water. At 45°F, it can hold only 0.5 pints.

Relative Humidity is a percentage measurement of the amount of water vapor present in the air in relation to the amount it is capable of holding at that temperature. Therefore, 50% Relative Humidity would mean that the air is carrying only one-half of the total amount of moisture that it could be holding at that particular temperature. Cold outside air is usually much drier than warm inside air. Therefore, you can lower the Relative Humidity by bringing in outside air to mix with and dilute the moist inside air. At 100% Relative Humidity, the air is "saturated."

The temperature at which the air is saturated and can no longer hold additional moisture is called the dew point temperature. Whenever air temperature drops below its dew point, excess moisture will be released in the form of condensation. Condensation problems are most likely to occur in climates where temperatures frequently dip to 35°F or colder over an extended period of time.

Ceiling & Wall Liners

29g low rib panel applied to the interior of the building providing a clean protective covering over insulation or girt/purlin cavity.

ABOUT US

COMMITMENT - Our Company's vision is "to maintain a leading-edge in the design, engineering, fabrication and delivery of the highest quality steel buildings in the industry." We are deeply committed to providing you with this service as a means of achieving our vision.

VALUE - Low initial cost does not always provide the best value. It is just a small part of the picture. The values inherent in our designs assist in the ease of construction of the project but more importantly we provide a well-documented system that is easy to maintain. Much of the value we bring lies in the details. There is a true ART to engineering and design that provides added value to the Owner.

EXPERIENCE - With over 8 years in the manufacturing business and key staff members with many more years in engineering, we have the requisite experience. Major hardware and accessory suppliers have reviewed our capabilities and recognize us as leaders in our field. Many of our projects involve very difficult project constraints. Dealing with these issues and tight project schedules is the trademark of our success.

PROJECT METHODOLOGY - The success of a project lies in the talent of the design team and in the execution of the project. We first provide a strong project team, backed up with a well-defined and proven project execution methodology. Our project methodology has evolved over the years as we have executed numerous projects. It begins with our proposal document and extends through project documents, design sequence, system testing, acceptance documents and to the final delivery of our building system. The key to our methodology is communication. We strongly believe in defining what we are providing and expanding this initial definition as the project continues.

QUALITY - In engineering, quality relates to the designs we produce and the timing in project execution. Our goal for design is to provide a superior level of detail in documentation. We strive for uniformity of design, providing details often left out by others and keeping systems simple. The key to being on time is project execution. First, a well-defined project methodology is needed to set the planning framework. Second, understanding of the Owner's needs is paramount. Finally, our years of experience in the execution of critical projects have given us an essential edge over our competitors. Key members of our staff have up to thirty-five years of experience in project engineering and execution.

Structural Design

We design and manufacture pre-engineered steel buildings, and offer you a number of advantages over conventional construction techniques. Steel buildings are inexpensive and incredibly tough. Our bolt-together design is assembled quickly without any specialized skills. Each rigid frame is comprised of two or more columns supporting a rafter across the width of the building. In most steel buildings, endwall bearing frames support one-half the load of a rigid "main" frame. In most situations, we utilize the more economical "bearing" end frames. Adding an expandable endwall or rigid frame is only a click away. Unlike any of our competitors, we allow you to choose the endwall condition of your building. Depending on design considerations, our endwall rafters and columns may be either hot rolled or cold-formed.

The space between the rigid frames of a steel building is referred to as a "bay."- an 80' long building has been divided into four 20' bays by spacing the frames 20' apart (4 x 20' = 80'). This configuration is described as "four bays at 20." A 100' building could be configured with four bays at 25 (4x 25' = 100')

Endwall bay spacing is usually determined by the building width. You can add one or more framed openings to most buildings. Endwall bay spacing can usually changed to accommodate your needs without changing the price.

Ceiling & Wall Liners

29g low rib panel applied to the interior of the building providing a clean protective covering over insulation or girt/purlin cavity.