Studio Gang nestles Kresge College expansion in Pacific forest
CategoriesArchitecture

Studio Gang nestles Kresge College expansion in Pacific forest

Chicago architecture firm Studio Gang has expanded a California college through the addition of mass-timber structures that were informed by how fungi grow in the wild.

Kresge College is a part of the University of California, Santa Cruz. Most of its campus was originally designed by American architects Charles Moore and William Turnbull in the early 1970s.

White topped roofs of buildings in California forestWhite topped roofs of buildings in California forest
Studio Gang has created an expansion of Kresge College in California

Studio Gang was tasked with expanding the footprint of the project along the northwest extent of its property, nestled in a lush Pacific forest.

Four buildings were designed to complement the existing structures – California modern-style buildings with stucco walls and splashes of colour – and the woodland environment. All of the buildings feature concrete podiums, which support load-bearing timber walls.

Glass window back lit with trees in the forestGlass window back lit with trees in the forest
The expansion includes four structures with mass-timber elements

“Our goal was to add new qualities to the sense of place offered by Moore and Turnbull’s design, rather than to replicate the architecture,” said studio founding principal Jeanne Gang.

“We wanted our expansion to retain the qualities of surprise and free-spiritedness that have defined Kresge College, while at the same time opening it up to students of all abilities, the incredible natural ecology of its site, and the larger university community beyond.”

The expansion’s centrepiece is an academic centre with a series of protrusions that jut out asymmetrically from a core. Three simple, bow-shaped structures were placed to its southeast to house students.

Timber facing Timber facing
The residential buildings were clad in timber

The Kresge College Academic Center sits on an uneven site next to a steep ravine. To navigate this site, the studio used methods it said were inspired by the growth patterns of polypore fungi, by simultaneously “stepping down the slope and flaring out”.

The centre’s flared form was clad in a metal curtain wall, rendered in a light colour to reflect the mid-century buildings, while the faces of each protrusion feature floor-to-ceiling glass trimmed with timber.

Wooden buildings among the treesWooden buildings among the trees
The residential buildings have a bow-form to preserve trees

At the centre is a large lecture hall, surrounded by a triple-space atrium with smooth concrete hallways and elevated walkways that connect to the four protruding spaces.

These hold classrooms and utilise the slope with three storeys that line up with the two-storey central structure.

The largest of these protrusions features a smaller lecture hall on the top level, with a roof that slopes up and out in a sizeable lip.

Three storey atriumThree storey atrium
The academic centre has a three-storey atrium

The smaller residential buildings are all bow-shaped, a move the studio said was implemented to preserve as much of the redwood tree groves on the site as possible.

These buildings are five storeys tall and have a central core set back from the wood-clad exterior, with large window boxes on each end that create sheltered patios on the second storey.

The recesses between the window and the facade were painted bright yellow, which resonates with the colours used in the Moore and Turnbull designs.

Like the academic centre, these structures have concrete podiums with load-bearing timber walls. However, cross-laminated ceilings were included and in many places, these elements were left exposed.

The bottom floors of these residential structures were left open for social spaces and amenities, while the top floors hold habitations: about 100 students can live in each structure.

Mass timber student centerMass timber student center
Mass-timber elements were left exposed

Studio Gang also made interventions in the landscape, restoring and expanding the paths already connecting the campus and a long pedestrian bridge that crosses the ravine next to the academic centre. It also added a square at the building’s primary entry.

Studio Gang has completed a number of high-profile projects this year, including museum expansions in Arkansas and New York City. Kresge College is part of the studio’s move towards using more mass timber, and it has been selected to complete a theatre using this material in the Hudson Valley.

The photography is by Jason O’Rear.


Project credits: 

Design architect and architect of record: Studio Gang
Contractor: Swinterton
Expansion plan associate architect: TEF Design
Interior designer: Studio Gang
Structural engineer: Magnusson Klemencic Associates
Structural engineer: MME Civil + Structural Engineering
Landscape architect: Joni L Janecki and Associates Landscape Architects
Landscape architect: Office of Cheryl Barton
Civil engineer: Sherwood Design Engineers
MEPFP: Introba
Sustainability consultant: Atelier Ten
Lighting consultant: Horton Lees Brogden Lighting Design
Acoustic consultant: Salter
Envelope consultant: Simpson Gumpertz & Heger
Wayfinding and graphics: Cheng+Snyder
Code consultant: Holmes Fire
Quantity surveyor: Directional Logic
Accessibility consultant: Jensen Hughes
Elevator consultant: Elevator Consulting Associates
Technology consultant: TEECOM
Theater consultant (for Kresge College Academic Center): The Shalleck Collaborative
Food service consultant (for residential buildings): Ricca Design Studios

Reference

Common Expansion Joint Field Problems and How to Avoid Them
CategoriesArchitecture

Common Expansion Joint Field Problems and How to Avoid Them

Are you struggling with the aesthetic and functional challenges of expansion joint covers in architecture? These essential components require careful integration and understanding to ensure they meet project needs effectively. This can be quite challenging, which is why many architects don’t like them. However, with the proper guidance, you can transform this challenge into an opportunity for innovative design and effective functionality.

In our recent webinar, we delved into the complexities of expansion joint systems, offering insights and practical solutions for architects and builders. If you missed the live session, don’t worry — the recording is available for you to watch at your convenience.

Register + Access

Exterior waterproofing options via Inpro Corp

Once again, we had the pleasure of hosting Matthew Fisher, the Senior Product Manager for the Expansion Joint Systems division at Inpro. Fisher, with his extensive 25-year experience spanning architecture, construction management and building materials management, brings a wealth of knowledge and practical insights. His expertise is particularly invaluable considering his background as a practicing architect and his deep understanding of both the design process and the on-site construction dynamics.During the webinar, Fisher covered a range of critical topics, helping participants to:

  • Examine common floor joint oversights regarding blockouts, concentrated loads and coverplate specification;
  • Discover the types of interior wall expansion joint systems and how to accommodate obstructions, changes in directionand functional requirements;
  • Examine and compare building envelope joints and recognize the importance of proper detailing for transitions;
  • Identify the types of expansion joint fire barriers and the dangers to life safety when seams and intersections installations are not assembled to specifications.

Exterior joint cover types via Inpro Corp

These topics were not just theoretical discussions but were backed by real-world scenarios and practical solutions, making the webinar an insightful learning opportunity for anyone in the field.

Register + Access

Don’t miss this chance to broaden your understanding of expansion joint systems and their critical role in architecture. Access the webinar now and equip yourself with the knowledge to tackle one of the most nuanced aspects of building design.


Kalina Prelikj

Author: Kalina Prelikj

A jack of all trades and a soon-to-be Master of Architecture, Kalina enjoys embracing her creative side and has dabbled in everything from marketing to design to communications. However, her main interest lies in architecture, as she loves to explore how it shapes our communities and transforms our daily experiences. With a deep appreciation for the art of puns, Kalina is constantly on the lookout for opportunities to craft clever wordplay.

Reference

Miller Hull Partnership and Woods Bagot design timber airport expansion
CategoriesSustainable News

Miller Hull Partnership and Woods Bagot design timber airport expansion

Architecture offices Miller Hull Partnership and Woods Bagot have revealed plans for an extension of Seattle-Tacoma International Airport.

Miller Hull Partnership and Woods Bagot will work with the Port of Seattle to carry out the 145,528 square-foot (13,520-square-metre) expansion of the airport’s C Concourse.

A sculptural pillar and a grand staircase clad in locally sourced Douglas fir will be at the centre of the C Concourse Expansion. The pillar will feature carved decorative geometric shapes.

According to the architecture studios involved, the airport’s grand staircase will be the focal point of the extension, with a design that takes materials and forms of the Pacific Northwest.

Airport expansion
The project will expand Seattle-Tacoma International Airport

“The concourse’s interior will be an interplay of environments that is defined by both the local energy and a connection to the natural landscape,” explained Miller Hull and Woods Bagot.

Four additional storeys above the airport’s existing concourse will provide travellers with a range of amenities.

These additional floors will include dining and retail spaces, as well as interfaith prayer and meditation rooms, a nursing suite and a 20,000-square-foot (1,858-square-metre) lounge for Alaska Airlines.

Due to the expansion’s height,  views of the airfield and the surrounding Olympic Mountains will be expanded.

Douglas fir pillar
A staircase and pillar clad in local Douglas fir will be at the centre of the expansion

A “marketplace” modelled on the Seattle farmers’ markets will be located in the middle of the concourse. It will include a bar, various retail kiosks and an area for musicians that will face the grand staircase.

The C Concourse Expansion’s timber elements have been designed as part of Port of Seattle’s Sustainable Project Framework, which pledges to commit to more sustainable infrastructure.

The expansion will also include rooftop photovoltaic panels and electrochromic window glazing.

According to Miller Hull and Woods Bagot, the expansion will also feature fossil-fuel-free systems for heating and hot water, as well as dishwashing facilities for vendors that will intend to reduce the demand for disposal dishes and low-flow water fixtures.

The architecture firms said that embodied carbon reduction strategies and biophilic design principles will also define the expansion.

Initial construction is slated to begin this summer, with major work due to commence in mid-2023. The expansion is expected to be completed in 2027.

Miller Hull Partnership was founded in 1977 while Woods Bagot was established in 1869. The firms have individually designed many architecture projects including a net-positive building for an Atlanta university and another university building with a fluted concrete tower respectively.

The renderings are courtesy of Woods Bagot and Miller Hull Partnership.

Reference