Why should anyone care about ASTM E1105? The answer is simple: water penetration can compromise the integrity of your structure, leading to costly repairs and a shorter lifespan. ASTM E1105, the Standard Test Method for Field Determination of Water Penetration of Installed Exterior Windows, Skylights, Doors, and Curtain Walls, is a crucial guideline that helps ensure these components are up to the task of resisting water infiltration.

Preliminary Examination

Before we begin testing, we conduct a preliminary visual examination of the assembly. This initial assessment allows us to identify evident signs of damage or failure, if any, prior to engaging in physical testing of the unit. Should we detect indications of wear and tear suggesting potential water leakage, we will promptly bring it to our client’s attention.

Assuming the assembly is functioning properly we will proceed to test its fundamental functions, such as opening, closing, and latching. Simultaneously, we scrutinize the adjacent wall and/or roof to ensure the assembly's proper installation adheres to ASTM E2112 standards. All observations from this examination are meticulously documented in the final report, specifically the E1105 – Field determination water penetration testing for windows, doors, and curtain walls report.

Testing

Prior to testing, a test chamber is created around the interior side of the assembly. This chamber serves to isolate the assembly from the remainder of the building interior while keeping joints and surfaces unobstructed for observation.

Static Air Pressure:

In the static air pressure method, the air pressure is established within the test chamber. Subsequently, the spray rack directs water at the assembly for a minimum duration of 15 minutes. We meticulously document any water penetration observed during and immediately after the testing.

Cyclic Static Air Pressure:

With the cyclic air pressure method, the test chamber air pressure is initially set, and water is directed at the assembly for five minutes. The air pressure inside the test chamber is then reduced to zero for one minute before being restored to the original setting. This cycle repeats three to five times. Once again, any water penetration observed during or immediately after the testing is documented.

Testing Equipment

Rain Maker:

A water spray grid is positioned on the outside of the assembly and directs 5.0 U.S. gal/ft2·h (3.4 L ⁄m2·min)” at the assembly.

Air Control System:

Measures the amount of air pressure in the chamber.

Reporting

Following the testing, our BES team will create a comprehensive report based on ASTM E1105 – Field determination water penetration testing. This report will encompass various aspects, including details such as the window location, type, manufacturer, and the make/model of each tested assembly. A standard compliance statement will be included, along with the incorporation of thermography in the report. Furthermore, the report will provide descriptive information about the condition of the assembly during testing, its operational status, and may include a visual breakdown of the assembly.

After testing, our Building Envelope Science (BES) team will create a detailed report based on ASTM E1105 for water penetration testing. This report will include important details such as window locations, types of windows tested, manufacturer information, and the specific make and model of each assembly. It will also have a compliance statement to confirm adherence to industry standards, along with thermography insights. Additionally, the report will describe the condition of the assembly during testing, its operational status, and may include visuals for better understanding.

GRLA’s experienced BES team regularly conducts ASTM E1105 field tests for a variety of clients. With a deep understanding of water penetration risks, we help ensure that windows, doors, and curtain walls perform reliably against the elements.  Reach out if we can help you!

Today marks the 54th Earth Day, highlighting a critical focus on the planet's health and safety, particularly regarding the surge in plastic use. Earth Day 2024's primary goal is succinctly captured by the slogan "60×40": aiming for a 60% reduction in plastic production by 2040.

The scale of this challenge is staggering. Consider these numbers:

- In 1950, global plastic production was just two million tons. Today, it exceeds 450 million tons.

- Half of all plastics ever made were produced in the last 15 years, with projections doubling by 2050.

- A staggering one million plastic water bottles are sold every minute, contributing to about 11 million tons of plastic waste entering the ocean annually.

- Shockingly, only 9% of all plastics ever produced have been recycled.

Plastic has permeated every aspect of our lives, even infiltrating our food and water with microplastics. These tiny synthetic particles, ranging from half an inch to microscopic, persist indefinitely. Stephen Jamieson, in a recent podcast, highlighted the concerning fact that humans ingest a credit card's worth of plastic every week, with uncertain health impacts.

Addressing this challenge requires:

1. Recognizing health risks: Excessive plastic production fuels climate pollution and poses significant environmental threats. The release of toxic chemicals from decomposed plastic also endangers human health.

2. Demanding change: Shifting away from single-use plastics requires market demand transformation. EARTHDAY.ORG advocates ending single-use plastic production by 2030 through the Global Plastic Treaty.

3. Embracing innovation: Investing in innovative solutions is paramount to achieving a plastic-free world.

What can you do?

Well, feel free to borrow ideas from our small office of 25!

We’ve eliminated bottled water; filtered water is available, and we have a large collection of glasses and mugs, no plastic cups!

 We insist food deliveries come without utensils and paper products. 

We make conscious choices daily to reduce single-use plastics. For instance, designate separate recycling bins for film plastics, which cannot be recycled with other plastics.  Bubble wrap, plastic grocery bags, air-pillows, package wrapping – all can be repurposed!

We hold monthly "Green Lunch" office gatherings to share eco-friendly practices and solutions, fostering a culture of sustainability both professionally and personally.  Some of the resources shared include:  

2030 Palette – A database of sustainable design strategies and resources

The AIA 2030 Commitment

The Climate Reality Project

Home | Plastic Pollution Coalition

Take on the #plasticdetox challenge personally, at home, and in your workplace.

REFUSE single-use plastic whenever and wherever possible. Choose items that are not packaged in plastic, and carry your own reusable bags, containers, and utensils. Say ‘No plastic straw, please.’

REUSE durable, non-toxic straws, utensils, to-go containers, bottles, bags, and other everyday items. Choose glass, paper, stainless steel, wood, ceramic, and bamboo over plastic.

REDUCE your plastic footprint. Cut down on your consumption of goods that contain excessive plastic packaging and parts. If it will leave behind plastic trash, don't buy it.

RETHINK what you can’t refuse, reduce or reuse. Pay attention to the entire life cycle of items you bring into your life, from source to manufacturing to distribution to disposal.

Earth Day must be every day!

How it Began:

2023 marks the 20th anniversary of GRLA establishing a Building Envelope Services (BES) department.  In 2003, GRLA saw the need to deliver dedicated BES services for new and existing buildings in a comprehensive manner.  Starting from a team of one with a few projects in its first year, the new venture was deemed a success as more team members were added and the number and size of projects grew exponentially.

How it’s Going:

Today, building envelope sciences is a more recognized field of expertise, and the GRLA team comprises 7 full-time staff members. In the past 5 years alone, BES has serviced over 350 projects all over New England, New York, New Jersey, and as far away as Florida.  “We continue building upon what we started 20 years ago and are poised for even more growth in our expertise, service offerings and client relationships, both with new and long-term and in the private and public sectors,” said BES Director, Chris Paszko, P.E.

What is Building Envelope Sciences?

The building envelope is a collective of exterior building systems and materials to protect and control the effects of air, water, vapor and thermal forces on a building.  These systems include the roof, walls, windows and doors, and foundation to form the exterior shell of a building.

Our main focus is on water penetration resistance, water vapor mitigation, and improving thermal performance for new and existing construction.  Our projects include façade restoration and rebuilding, roof replacements and restorations, waterproofing, window and door replacement and Building Envelope Commissioning.  Our services and expertise are essential for protecting and maintaining your building for years to come.

Our team specializes in:

• Diagnosis of building envelope failures and remedial solutions for existing buildings.

• Design and technical support for testing for new construction.

• Capital Needs Assessments and Long-Term Replacement Costs.

• Building Envelope Commissioning.

How We Can Help You:

Existing Construction

• Analysis and reporting on failures of building components.

• Infrared thermography.

• Water penetration testing and reporting.

• Remedial solutions design and documentation.

• Bidding, Construction Administration and Construction Control.

• Due-diligence, facilities, and capital needs assessments.

• Inspection and maintenance programs.

• Historic restoration and renovation.

• Coordination with MEP and structural consultants on investigations and remediation plans.

New Construction

• Drawing and specification review and detailing.

• Systems design and development.

• Construction observation and performance testing.

• Building Envelope Commissioning.

“GRLA’s in-house building envelope expertise is a key strength of our firm.  We are excited to see what the next 20 years bring,” GRLA President and co-founder, Scott Richardson, AIA LEED AP

The greatest compliment from a client is awarding you their next project and continuing to build upon that with their future projects.  GRLA is extremely proud to mark 15 years and over 40 projects with Cognex Corporation.

Cognex Corporation, headquartered in Natick MA is a world-renowned manufacturer of machine vision and industrial barcode reading projects.  They have offices across the US and the world.

In 2007 our first project with Cognex was a study/master plan to develop an improved work environment and update the image and usability of the facility for clients and visitors.  That study/master plan led to the next few projects to address the areas in most need of updates and reorganization.  Based on the success of these subsequent projects, GRLA was invited to consult on some of Cognex’s national and international facilities which ultimately lead to the start of the phased renovation of their 260,000 SF three building world headquarters campus.  Desiring a “WOW” experience for their employees, clients and visitors meant significant changes to their dated 1980’s buildings.  The goal was to provide open, light filled interiors and updated exteriors while incorporating the company color palette of yellow, black, white and shades of gray with the added requirement of no curves and no wood.

With those parameters in place, we were able to provide Cognex with innovative design solutions that created an inspiring, bright, and exciting vibe throughout the campus.  The gut renovations included the renovating/expanding/relocating of departments, reimagining of the cafeteria, updated game rooms, modern restrooms and refreshed lobbies that reflected the company’s image. 

The successful work completed at the headquarters campus resulted in GRLA collaborating on new corporate standards for their national and international facilities along with providing space planning consulting.  GRLA became a trusted advisor and go-to designer for Cognex worldwide.  Today, we continue to work with Cognex, most recently at their Southborough MA distribution center.

The key to our long and successful partnership with Cognex is our team’s ability to foster a truly collaborative relationship which depends on thoughtful listening, trust, and respect for all stakeholders.  We worked hard to become fluent in their corporate language and culture, allowing us to offer the best design and engineering options to meet their particular needs. 

“You never start out with a long-term relationship, but you hope that it is what develops based on the quality of the work you do combined with the synergy of team members,” said GRLA Associate and Project Manager Marc DiPilato.  “We have had the privilege of that happening with many of our clients over the years and we are honored to be their chosen partner for Architecture, Building Envelope Science and Interior Design.”

To see more project photos please click here.

There is no one way to combat climate change; it is a multifaceted problem that requires many solutions.  Everyone needs to be involved in the fight and importantly, everyone needs to benefit from the solutions. Architecture and design have a substantial role. GRLA is committed to designing to the highest standards and selecting materials to accelerate the drive to net-zero, given the project criteria of program, budget, schedule, and quality.

Indicative of our commitment, GRLA has joined over 60 other firms from across the country in adopting the AIA Architecture & Design Materials Pledge. This pledge is focused on establishing reliable and consistent metrics for finding improvements in the design process.  There are five aspects that the A&D Materials Pledge considers when evaluating products and finishes:

• Human Health

• Social Health & Equity

• Ecosystem Health

• Climate Health

• Circular Economy

All are equally critical and require conscious and intentional support.  Here we will focus specifically on the Climate Health Pledge:

“We pledge to support climate health by preferring materials and products that reduce carbon emissions and ultimately sequester more carbon than emitted.”

Construction materials generate over 11% of worldwide greenhouse gas emissions. According to Architecture 2030, to avoid triggering irreversible climate change the building sector must reduce carbon emissions by 65% by 2030, quickly followed by getting to zero by 2040.  If we continue with business as usual, more than 50% of the emissions from new construction will come from the CO2 emitted in production of materials, with the majority coming from cement and steel. While the building industry needs to drastically reduce operating emissions, there must also be a coordinated effort to reduce embodied carbon from materials.  

Where to Start:

• Ask for transparency in carbon impacts of material ingredients. This can be found in EPDs (Environmental Product Declaration)

• Build whole building Life Cycle Assessments (LCAs) into your practice. Focus first on using LCAs to select materials and systems that reduce your building’s carbon impact, and then compare across other available LCA impact categories. Read more about LCAs.

• Use low-carbon and carbon sequestering materials. This can transform our buildings from carbon emitters to carbon sinks.

• Start by evaluating the highest-impact materials and work down: structure, envelope, wallboard, flooring, insulation, ductwork, ceiling panels, etc.

• Advocate for policies and practices that impose greater transparency of, and limits on, the global warming impacts of building products and interior materials, and for investment in tools that enable us to select low-carbon and carbon storing materials.

Designing and constructing buildings that can combat the greenhouse effect will improve our chances of repairing our planet while creating a healthy, resilient, and regenerative future; this is our architectural imperative.  GRLA is proud to collaborate with our partners and clients in this work.

Please reach out to Scott Richardson if you’d like to chat further about sustainable design.

A waterproofing system is designed to keep water out of the dry area and when this type of system fails it can cause problems.

WHAT WAS THE CHALLENGE?

The client reported that there were leaks in their plaza deck and the soil in their planter beds were overly saturated with water.  This indicated that the water was not draining properly and was pooling at the deck and waterproofing system. Most waterproofing systems are not designed to be exposed to water for long periods of time and will deteriorate where there is ponding water.

The leaks were located in the basement level mechanical, retail, and auditorium spaces beneath a concrete plaza deck made up of planters, paved walkways, and mechanical exhaust enclosures.

WHAT SERVICES DID GRLA PROVIDE AND WHAT DID WE FIND?

To determine the source of the leak, GRLA performed a survey of the deck from below and a series of exploratory openings above. Pavers and soil overburden were removed in select areas to identify:

• the existing system used to waterproof the deck

• how it was installed

• the transitions between materials and surfaces. 

Failure of the existing waterproofing system had already resulted in damage and costly repairs. 

GRLA’s investigation found weak points in the transitions between materials which could deteriorate at an accelerated rate and areas of failure where exposed to the sun.[JS1]   When the landscaping and overburden were removed, it was found that the existing system had begun to lose adhesion, and there were gaps in the system where water could bypass the waterproofing and travel into the concrete deck below.

WHAT WAS GRLA’S SOLUTION?

The plaza has short walls separating areas along with a curved walkway design, an extensive irrigation system, and mechanical curbs. A sheet applied membrane system was ruled out because it is difficult to install in a geometry that has multiple vertical and horizonal surfaces.

GRLA determined that the new waterproofing system in the mechanical space, planters, and paved plaza be a single product versatile enough to be installed in all three locations which would insure a single installer and uniformity of waterproofing. Because the waterproofing in the mechanical space was to be exposed to the sun, it was important that the system selected is not UV sensitive and could withstand the elements. 

GRLA’s Building Envelope Sciences Project Manager, Ed Sprenkle, explains the rationale for the selection, “The decision was made to use a liquid applied waterproofing membrane with a thirty-year warranty. This provided the longevity needed for a system that is hard to access locations under concrete and landscaping and the resilience to handle the unique conditions of the site.”          

Contact GRLA’s Building Envelope Sciences team - We are the specialists to assess, diagnose and recommend appropriate solutions for your building.

Have you ever noticed how much plastic is used in the packaging of the foods we purchase?

It was recently reported that we ingest the amount of plastic equivalent to a credit card every week! Plastic has been found in human blood in a study recently done in the Netherlands and was found in 80% of the participants of that study.  It is unknown currently what the impact is of all that plastic to our health. But where is it coming from?  It is found in food and beverage packaging, bottled water and tap water, much of which flows through plastic piping into our homes. Plastic is also found in our clothing, tools, toys, rugs, furnishings and building materials as well as their packaging.

The goal of this challenge was to become aware of the plastics that surround the food and beverages we routinely purchase every week. GRLA’s shopping challenge was to see if we could find alternatives to plastic packaging. We offered participants $50.00 each to see what they could find at their local store.

We learned the following:

Finding items that are completely without plastic was a real challenge to say the least, but a real eye opener. Through this exercise we realized that much of the food we buy is completely wrapped in plastic, while some items include less plastic, for example cereal or a frozen pizza are wrapped in plastic then placed inside a cardboard box. However, there are products available that are packaged in recyclable glass, cans, cardboard, paper, or nothing at all, which is particularly true for produce.

“It was tough, but fun. It’s amazing how much plastic is incorporated into packaging once you concentrate on avoiding it” commented James Blattenberger, Project Manager.

Some of the plastic-free items we found were:

• Milk in a reusable glass bottle

• Meat packaged in paper

• Eggs in cardboard containers

• Single serve yogurt in a glass jar with foil cover

• Glass jars of sauces and salad dressings

• Cheese wheels in cardboard and foil

• Single serve oatmeal in a recyclable cardboard sleeve

• Deli items packaged in paper only, if requested

Many of our grocery stores have moved away from single use plastic bags but there is more to do! Pallets of groceries that arrive in our local stores are encased in plastic wrap, which is then discarded, (another form of single use plastic).

The oil industry is transitioning to plastics manufacturing as we reduce our dependance on fossil fuels. Plastics are cheap, versatile, light weight and convenient. They are also polluting our air and water. Only about 10% will be recycled.  The industry is relying on us to keep buying more virgin plastics to keep them in business. As consumers we have some choices and some responsibilities. The first step is to become aware. We challenge our friends to take the shopping challenge!

GRLA is committed to do our part in the design of the built environment to reduce green-house gas emissions and to move to a carbon neutral future to ensure that our children’s children have a world that continues to provide for them.

GRLA’s Building Envelope Sciences team was hired to help solve a roof problem that originally had all good intentions of improving the performance of the roof system but had caused other problems.   

The owner’s goal was to significantly increase the roof insulation as they were reroofing this building. The original masonry through-wall flashing was above the roof, however once additional insulation was added it was then buried beneath the new roof membrane (noted as a red line in the photo below). So instead of being directed out of the wall and onto the roof, water drained into the roof system and down an interior wall. 

This story illustrates how easily risky construction conditions can be missed if you’re not specifically looking for them.  The plans for the work had passed through many hands before it was finally installed. However, everyone failed to notice how modifying the roof would affect the wall system next to it. 

Once GRLA was brought on board and analyzed the issues, we came up with a solution that involved removing the bottom four courses of masonry and then installing new through-wall flashing just above the new roof level (noted as a green line in photo above). It was an easy but somewhat expensive fix and one that would have been less costly if the work had been performed at the same time as the re-roof.

On your next waterproofing job—whether it be a roof, wall, or foundation—having a Building Envelope Science specialist on the project can ensure that you are solving all the problems you have.

GRLA’s Building Envelope Sciences team works with you to solve your most difficult building envelope challenges and protect your most valuable investment. Contact us to learn how we can help.