WILDCRAFT CONSTRUCTION’s Post

What are the results of a poor commercial roof design?   Roof design is vital to any new roof. A poorly designed roof is likely to have a range of problems and issues that will result in the roof breaking down completely, and your property suffering from damp, and water damage.   We understand the key elements to every roof style, and we are always sure to provide a high-quality roofing solution for any property. Quite often this means that we need to completely replace existing roofs that have not been designed thoroughly or carefully.   So, what are the results of poor commercial roof design?   Poor roof design can lead to a number of issues, these include:   ·        Water ingress and damp ·        Blisters ·        Poor insulation   To read more about poor commercial roof design, click the link below to be directed to our blog on our website.   https://lnkd.in/dQ73UJk #singleply #construction #flatroofing #maincontractor #design #architects #insulation #blisters #ingress #damp #roofers #lancashire #northwest The Single Ply Roofing Association (SPRA) Jake Clarke Teruka Taylor Paul Gibney Ben O'Connor Claire Holden

How much timber, really? Well, that was an interesting exercise. In an attempt to get another designer’s project currently under construction over the line for a 6 star Homestar rating, I calculated the ratio of timber framing in one elevation. This is a fairly typical, simple two storey / two bedroom terraced housing project. The elevation in question is a featureless flat façade with minimal window openings (it’s the east-facing rear wall). NZS4214, the standard regularly used to determine the thermal resistance of building elements, allows us to assume that a wall is made up of studs and dwangs evenly spaced at the maximum permissible distance. For a 2.4m high wall with studs at 600mm centres and dwangs (or nogs for my North Island friends) at 800mm centres, that’s around 15% of timber. The rest can be filled with insulation. After a BRANZ / Beacon Pathways report found average as-built framing ratios were actually more like 34%, Homestar requires us to assume 30% framing unless proven otherwise. This is because all the extras like lintels, double & trimming studs, internal wall connections etc. etc. add more thermal bridges than you would realise. Alright, I thought – here’s a good chance to use this. And at first glance, the panel elevations looked relatively efficient. I’ve seen a lot worse, that’s for sure. So take a guess at the actual result… . . . . . . . . . . . . The lower level is 27.8% timber, and the upper is 34.5%. That’s 31.15% for the elevation. That means the wall’s constructed thermal resistance (with R2.8 batts) is really R1.91, not the R2.42 the designer could use for their building code compliance calculations. There are lots of ways to address this, but if your designer is targeting code compliance as a benchmark it will most likely be ignored and your project will be performing a lot worse than you think!

There is no denying the timeless beauty that wood can add to a construction project. In addition, wood is a rather versatile material that can be used for a wide array of purposes, both interior and exterior. However, with the entire country on the lookout for ways to mitigate fire risk and create more sustainable structures, the high-maintenance requirements of wood are causing homeowners and commercial builders alike to explore their options. With this in mind, keep reading for 5 excellent alternative materials for wood in construction. https://lnkd.in/d92hpykP

Homestar covers a lot of areas of sustainable design, but it’s interesting to see where it directly impacts designers and encourages them to do better. - Framing percentage/fraction is one area I see that comes up quite often. - Another is accounting for and addressing critical thermal bridging for both heat loss and mould avoidance - And, another is effective ventilation. Hard to know how well these follow through to construction quality on site, but still good steps forward for the industry.

Simple is best, when it comes to understanding waterproofing - especially if you're not an expert (there are plenty of those at EPRO Services, Inc., if you're interested!) Check out the most recent blog to learn waterproofing basics - it's a great place to start if you are new to the topic!

New to modern reinforced wall construction? 🏗️🔨 Dive into our beginner’s guide and discover the essentials for creating sturdy, stylish walls that stand the test of time. #constructionbasics #reinforcedwalls #BuildingStrong #modernconstruction

www.thermasteelinc.com ThermaSteel panels are known for their unique combination of lightweight construction, high insulating properties, and structural strength. This makes them particularly appealing for a variety of construction applications, from cold storage to high-rise buildings. Here's how the weight of ThermaSteel panels compares to traditional building materials: ### Lightweight Construction - ThermaSteel panels are composed of light-gauge steel bonded to expanded polystyrene (EPS), resulting in a lightweight yet robust construction material. This composition allows for easier handling and installation compared to traditional materials like concrete or brick. - The panels' lightweight nature contributes to reduced transportation costs and simplified logistics during construction projects. Up to 6000 square feet of panel can be loaded onto a single truck, highlighting the efficiency in material delivery [3]. ### Strength-to-Weight Ratio - Despite being lightweight, ThermaSteel panels boast a high strength-to-weight ratio due to their patented bonding technology. This technology bonds light-gauge steel with EPS, creating a composite structure that is both strong and light [3]. - The panels are designed to support multi-story loads, making them suitable for various applications, including mid-rise buildings, hotels, and assisted living facilities. Their ability to bear substantial loads while remaining lightweight is a significant advantage over traditional building materials [3]. ### Comparison to Traditional Materials - Traditional building materials such as concrete and brick are significantly heavier than ThermaSteel panels. The weight of these materials can complicate construction processes, requiring more substantial foundational support and increasing the overall cost of construction. - In contrast, ThermaSteel panels' lightweight construction offers a more efficient alternative. Their ease of installation can lead to faster construction timelines and reduced labor costs. Moreover, the panels' structural integrity ensures they meet stringent building codes without compromising on strength [3]. ### Environmental Impact - The lightweight nature of ThermaSteel panels also contributes to environmental sustainability. Reduced weight means lower fuel consumption during transportation, leading to decreased carbon emissions. Additionally, the panels' high insulating properties enhance energy efficiency in buildings, further mitigating environmental impact [3]. ### Conclusion ThermaSteel panels offer a compelling alternative to traditional building materials through their unique blend of lightweight construction, high strength-to-weight ratio, and superior insulating properties. These attributes make them an attractive option for a wide range of construction projects, promising efficiency, cost-effectiveness, and environmental benefits. Citations: [1] https://lnkd.in/e9UgihaQ

The significance of waterproofing in building design cannot be overstated. A single mistake in this critical aspect can compromise the entire building’s integrity, leading to potentially disastrous consequences. In this article, we will delve into some common challenges associated with basement waterproofing and provide valuable insights into crafting an effective waterproofing strategy and a responsible design framework. Read more 👇🏻 https://lnkd.in/eZ3tyvCM

At an AIA meeting I was asked what is involved in Building Envelope. Here is my answer BE scope typically refers to the elements and components that make up the building envelope or enclosure. The building enclosure is the physical barrier that separates the interior of a building from the external environment. It includes components such as walls, roofs, windows, doors, and other structures that provide protection, insulation, and support for the building. The scope of building enclosure work may include: 1. Wall Systems: This includes exterior walls made of various materials such as wood, concrete, steel, or masonry. Wall systems may also include insulation, vapor barriers, and air barriers to provide thermal and moisture protection. 2. Roof Systems: The roof system consists of the roof structure, roofing materials, insulation, and waterproofing to protect the building from water infiltration and provide thermal insulation. 3. Window and Door Systems: Windows and doors are critical components of the building enclosure that provide natural light, ventilation, and access. They also play a role in energy efficiency and thermal performance. 4. Air and Vapor Barriers: These components help control air leakage and moisture movement within the building enclosure to prevent issues such as mold growth and energy loss. 5. Thermal Insulation: Insulation materials are used to improve the thermal performance of the building enclosure by reducing heat transfer and energy consumption. 6. Waterproofing Systems: Waterproofing is essential to protect the building from water intrusion and damage. It includes materials and systems designed to prevent water penetration into the building. 7. Exterior Finishes: Exterior finishes, such as cladding materials and finishes, provide aesthetic appeal, weather protection, and durability to the building enclosure. The scope of building enclosure work may vary depending on the project requirements, building type, climate conditions, and local building codes. It is essential to consider all these factors when designing and constructing the building enclosure to ensure the comfort, durability, and energy efficiency of the building.