Each piece of furniture, be it a table, a chair, or a sofa, is much more than just a functional element. It is a bearer of stories, a keeper of memories, and a reflection of the craftsmanship of those who brought it to life. When it comes to wooden furniture, this connection with history and skill is even deeper; every grain, knot, and shade tells the story of the tree it came from, and the craftsmanship of the artisans is manifested in the curves and joints. In the contemporary context, where mass production and fast-paced trends tend to standardize the world around us, furniture making remains a beacon of authenticity, and wood continues to be highly prized. It's a haven where exclusivity and connection with the natural are celebrated, resisting the passage of time.

In nature, zinc is mainly found as zinc sulphide ore or zinc carbonate, which is mined to obtain the metal. Once refined, it is used in a variety of applications, including metal alloys, battery manufacturing, medicines and supplements, as well as in the fabrication of pigments, chemical compounds and coatings. In the latter, which is used in architectural applications, zinc is well known for its weather resistance and self-healing properties and is highly durable, with a lifespan of up to 100 years, requiring minimal maintenance. In addition, because it is 100% recyclable and has a low environmental impact during its production, zinc is a sustainable choice for construction projects.

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Flooring plays a fundamental role in defining the ambiance and atmosphere of a space. Among the variety of options on the market, solid wood plank flooring stands out as a timeless choice. Known for their classic beauty and enveloping textures, these floors not only enhance the visual aspect of a room but also provide exceptional thermal comfort, resistance, and resilience, able to withstand wear and tear and heavy traffic. Their easy maintenance and durability are further markers of their quality, making them one of the favorite choices of architects, designers, and homeowners in search of long-lasting elegance and functionality for their projects.

When we look at a meticulously installed floor, we often forget that it was once part of a tree that was taken through a series of processes to eventually become the flooring product beneath our feet. The round trunk of the tree naturally results in boards of different dimensions, from the wide widths of the central core to the narrower dimensions of the outer layers. Various methods can be used to optimize the use of these trunks, each with its advantages and disadvantages.

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In the coming decades, it seems inevitable that architects will increasingly focus on renovations and rehabilitations –especially in established urban centers–, whether to modernize outdated structures or adapt to new uses and demands by contemporary society. A main challenge when executing these types of projects is obtaining a truly reliable working base, including accurate and true-to-life 3D models. Conducting surveys can be a herculean task, requiring extensive hours or days of on-site work and considerable effort to organize and interpret the collected information, often resulting in data that lacks adequate precision.

To simplify these processes, technological advancements have provided a solution: site surveys based on point clouds and 3D scanning, which have the potential to revolutionize the design process. Point clouds are collections of millions or billions of individual measurement points on the surface of objects, which can be obtained through laser scanners, drones, or 3D cameras. Each measurement point contains X, Y, and Z coordinates, as well as other optical properties (reflectance, color). Multiple scanning positions are registered (stitched) to create point clouds of an entire scene, which can be loaded into virtually any CAD platform for standard fieldwork.

Flat and polished surfaces tend to evoke feelings of coldness and sterility, while raw, natural materials can create a sense of warmth and connection. Textures can trigger memories and emotions, connecting us to past experiences and the sense of touch. In the seminal book "The Eyes of the Skin", Juhani Pallasmaa emphasizes the importance of sensory perception in architecture and objects beyond sight, particularly the role of touch and texture in shaping our experience. According to Pallasmaa, contemporary culture, influenced by technology and visual media, has overemphasized the visual aspect of spaces, neglecting other senses, especially touch, which is vital for understanding and appreciating the surrounding environment.

Greenhouses are elegant and ingenious structures that incorporate simplicity in design while creating light-filled spaces that shape indoor climates. With walls and roofs composed mainly of transparent or translucent materials, these structures harness solar energy to create a controlled environment. As advances in materials and environmental management progress, they can seamlessly be integrated into architectural designs, offering innovative solutions that blend functionality with aesthetics. Beyond their original role in plant cultivation, they have evolved into projects that emphasize sustainability, education, and conservation. At their core, they offer experiences of exploration and discovery, showcasing the intricate relationship between sunlight, plants, and indoor environments.

As we observe closely spaced parallel lines at a specific angle, we may be deceived by the illusion of a continuous or three-dimensional surface, although they are, in fact, individual lines. This phenomenon arises from the brain's natural tendency to simplify and seek visual patterns, interpreting the proximity of the lines as indicative of a unified ceiling. This illusion is often exploited in suspended ceiling architecture, where successive slats, when viewed at an angle, create the impression of a solid ceiling. This approach not only reduces the use of materials and keeps the infrastructure above the ceiling accessible, but also provides more surfaces for noise absorption, significantly improving the acoustic environment.

Autonomy and freedom during the design process are invaluable resources for architects, especially when defining a volume and choosing materials, systems, and solutions for a building. The flexibility of these elements must not only promote their harmonious integration within a structure but, above all, allow architects to incorporate them without the need to change their initial concepts. This design freedom becomes even more crucial in the context of facades, specifically in building-integrated photovoltaic (BIPV) facades. This is due to the unique challenge of incorporating the energy capture function into the design of the building envelope, simultaneously demanding adaptation to the designer's aesthetic preferences and effective performance, as well as the entire infrastructure for capturing and transporting energy.

Highly desirable in contemporary projects, seamless surfaces symbolize the search for a unified and uninterrupted visual experience, without any noticeable gaps or interruptions. This simple and clean aesthetic demands meticulous attention to detail, emphasizing precision in craftsmanship and execution to achieve an immaculate and flawless finish.