flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

'Core-first' construction technique cuts costs, saves time on NYC high-rise project

'Core-first' construction technique cuts costs, saves time on NYC high-rise project

Process involves pouring concrete core prior to erecting steel frame


By Richard Wood, CEO and President, Plaza Construction | December 27, 2014
Photo: Justin A. Wilcox via Wikimedia Commons
Photo: Justin A. Wilcox via Wikimedia Commons

When Plaza Construction first introduced the concept of "core first" in managing the construction of a major office building, the procedure of pouring concrete prior to erecting a steel frame had never been done in New York City. The precedent-setting development was utilized to build Eleven Times Square, a 40-story, 1.1 million-sf office building in New York City, resulting in a tremendous savings, completion a couple of months ahead of schedule and with no major accidents.  

It was designed according to LEED Gold specifications, and its owner, SJP Properties, claims that it is one of the safest and most efficient buildings in the world. Needless to say, this method is now considered standard in the building industry, but Eleven Times Square was the first in this market.

The concrete-first method had long been used in other markets and throughout Europe, but there was strong resistance to it by New York’s laborers, mainly because of safety concerns. The developers were able to get the labor unions to buy into the technique through proving that a safe worksite will be maintained—and by all reports—Eleven Times Square changed a lot of minds. 

Eleven Times Square’s architectural features include floor plates that expand as the building rises, as well as six tenant-exclusive terraces on the tower. Seven column-free corner offices are available on every tower floor, with panoramic views of the Hudson River, Times Square, and the Empire State Building. The base floors are 41,000 sf each.

How do you build a concrete core ahead of-and completely independent of-the structural steel frame? Why is it advantageous to do so? According to Richard Wood, President and CEO of Plaza Construction, “it’s done by erecting a self-climbing form-a gigantic mold, in effect-on top of footings, with reinforced steel placed inside it.  Concrete is poured into the form, and when it’s dried, hydraulics lift the form up to a new point, and the process is repeated.”

 

 

“Within the concrete,” Wood explains, “flush to the face of the form, are flat plates of steel with sheer tabs welded onto them, from the trailing platform after the form climbs, and bolt-holes creating the attachment for the beams that will follow.  The trailing platforms are part and parcel of the structure of the forming system.  As the system is hydraulically lifted, the platforms go along with them so they’re constantly climbing the building.”

At Eleven Times Square, the foundation contractor, Urban Foundation/Engineering, got started on the concrete core before the foundation was completed and while the steel was still in fabrication.  Also involved were Sorbara Concrete, Cives Steel and Cornell Erectors. During this process, the steel framing followed as soon as the bottom of the climbing forms cleared the embedding.  This tightly organized system allowed completion of the core in the shortest possible time.

“This system is advantageous because these forming systems allow you to better control the quality of concrete and the schedule of the pours are not dependent on other work,” Wood explains.  “This concrete core is in essence a building unto itself, a well-protected and secure core area that serves multiple purposes. It creates the lateral stability of the structure and a safe zone, after occupancy, and provides for safe egress.”

The core encloses all the building’s critical elements, including extra-wide stairways, elevators, utility risers, and the building’s command center.  Mechanical, electrical, and telecommunications rooms for each floor are fully enclosed within the core walls, which results in greater security and reduced noise.

Eleven Times Square was particularly suited to the core-first option and SJP Properties chose this method based on the configuration of the core: a straight–up configuration that was especially receptive to the self-climbing, forming system. PERI, a manufacturer that has subsidiaries in more than 50 countries, provided the climbing forms.

“The forms were customized for specific projects,” Wood concludes.  “The forming system is not just the form itself, but the platform that the trades work from, plus storage for materials that are introduced into the sheer wall as it climbs vertically.  The system creates a self-contained secure area.”

The concrete core was made of locally sourced material, and most of the reinforcing steel was recycled-thus boosting the building’s LEED rating considerably.

According to SJP, the unions, site safety experts, and subcontractors worked together to develop a comprehensive safety plan.  Egress was a major issue, which was addressed via a dedicated hoist for the core construction and a temporary stair hanging from the formwork, which accessed multiple levels at any given time, giving direct access to the permanent stairs-which were installed immediately to the underside of the form system at each jump.  Plaza also employed two full-time safety managers to simultaneously monitor the core and steel construction, and implemented a safety reward program for the trades.

The result is a core-first system that allows for cost-savings, speed and safety because the concrete is erected in an encased cocoon.

Related Stories

| Aug 11, 2010

ZweigWhite names its fastest-growing architecture, engineering, and environmental firms

Management consulting and research firm ZweigWhite has identified the 200 fastest-growing architecture, engineering, and environmental consulting firms in the U.S. and Canada for its annual ranking, The Zweig Letter Hot Firm List. This annual list features the design and environmental firms that have outperformed the economy and competitors to become industry leaders.

| Aug 11, 2010

SSOE, Fluor among nation's largest industrial building design firms

A ranking of the Top 75 Industrial Design Firms based on Building Design+Construction's 2009 Giants 300 survey. For more Giants 300 rankings, visit http://www.BDCnetwork.com/Giants

| Aug 11, 2010

Guggenheim to host live online discussion of Frank Lloyd Wright exhibition

The Solomon R. Guggenheim Museum launches the Guggenheim Forum, a new series of moderated online discussions among experts from a variety of fields that will occur in conjunction with major museum exhibitions.

| Aug 11, 2010

Best AEC Firms of 2011/12

Later this year, we will launch Best AEC Firms 2012. We’re looking for firms that create truly positive workplaces for their AEC professionals and support staff. Keep an eye on this page for entry information. +

| Aug 11, 2010

Report: Building codes and regulations impede progress toward uber-green buildings

The enthusiasm for super green Living Buildings continues unabated, but a key stumbling block to the growth of this highest level of green building performance is an existing set of codes and regulations. A new report by the Cascadia Region Green Building Council entitled "Code, Regulatory and Systemic Barriers Affecting Living Building Projects" presents a case for fundamental reassessment of building codes.

| Aug 11, 2010

Call for entries: Building enclosure design awards

The Boston Society of Architects and the Boston chapter of the Building Enclosure Council (BEC-Boston) have announced a High Performance Building award that will assess building enclosure innovation through the demonstrated design, construction, and operation of the building enclosure.

| Aug 11, 2010

Portland Cement Association offers blast resistant design guide for reinforced concrete structures

Developed for designers and engineers, "Blast Resistant Design Guide for Reinforced Concrete Structures" provides a practical treatment of the design of cast-in-place reinforced concrete structures to resist the effects of blast loads.  It explains the principles of blast-resistant design, and how to determine the kind and degree of resistance a structure needs as well as how to specify the required materials and details.

boombox1
boombox2
native1

More In Category


Urban Planning

Bridging the gap: How early architect involvement can revolutionize a city’s capital improvement plans

Capital Improvement Plans (CIPs) typically span three to five years and outline future city projects and their costs. While they set the stage, the design and construction of these projects often extend beyond the CIP window, leading to a disconnect between the initial budget and evolving project scope. This can result in financial shortfalls, forcing cities to cut back on critical project features.



Libraries

Reasons to reinvent the Midcentury academic library

DLR Group's Interior Design Leader Gretchen Holy, Assoc. IIDA, shares the idea that a designer's responsibility to embrace a library’s history, respect its past, and create an environment that will serve student populations for the next 100 years.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021