Innovative architectural sculpture-16 story staircase in monfalcone, Italy

Innovative architectural sculpture-16 story staircase in monfalcone, Italy

    The structure which the architect fondly refers to as the Vessel is currently under construction in Monfalcone, Italy and the individual bronzed-steel and concrete pieces will not be assembled on site until next year. And even then, the project will be completed only in 2024.Looks like this architect is all set to create history with a collosal 16-story staircase sculpture in the center of Manhattan.

That sculputure design by Thomas Alexander Heatherwick, is an English designer and the founder of London-based design practice Heatherwick Studio.He described his creation as a huge climbing frame – 600 tonnes, 154 individual flights of stairs, 80 landings, and with 2,500 steps.

            The structure is the centerpiece of a $200 million, 22-acre redevelopment of the city’s Hudson Yards – an industrial area in the west of Manhattan, encircled by the High Line walkway.

         The project, which will be completed in 2024, is funded by billionaire developer Stephen Ross’s Related Companies, which is developing Hudson Yards with Oxford Properties Group.

Interior view of “Vessel,” with 80 viewing landings.Add caption 
Rendering by Forbes Massie-Heatherwick Studio

For anyone who wants to enjoy the views at the top of the structure, but is unable to climb the 16-stories, an elevator will be included In a city full of eye-catching structures.

 Heatherwick didn’t just want the project to be a piece of eye candy, he wanted to create something that could be touched and used by anyone in the city.

     The inspiration for Vessel was taken partly from Indian stepwells and partly from the design of a jungle gym, one that can be found on just about any elementary school’s playground in the country.

A rendering of “Vessel,” with the entry garden and water feature.

   But Stephen M. Ross, the billionaire founder and chairman of Related Companies, which is developing Hudson Yards with Oxford Properties Group, has his own nickname for “Vessel”: “the social climber.” And the steep price tag Mr. Ross’s privately held company is paying for Mr. Heatherwick’s installation? More than $150 million.

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self healing concrete for modern construction

SELF HEALING CONCRETE

   As revolutionary as it was and still is, modern concrete (Lime-based) has a short lifespan caused by the formation of cracks shortening the longevity of a particular construction. That’s how the concept of self-healing finds its way to concrete. the natural way of hydrates to seal cracks over time, and the artificial way to seal cracks which needs a man-made intervention. 

   PURPOSE 

• increase concrete’s durability

• huge positive impact on both the environment and economics

• improve the architectural designs

• change the shape of internal spaces so that it serves many functions and provides flexibility.

A self-healing material is described as a material that is capable of repairing itself back to the original state. The concept of self-healing concrete (SHC) that happens over time (autogenic) has been noticed for over 20 years. It can be observed in many old structures which have remained standing for long periods of time in spite of the fact that they have limited maintenance. This observation concludes that the cracks heal when moisture interacts with non-hydrated cement clinker in the crack. Nevertheless, in present-day constructions the cement is lowered as a result of modern construction methods. Hence, the amount of available non-hydrated cement is less and therefore, the natural healing effect is reduced.

The principal phases of the natural healing ability are the inflammation and hydration of cement pastes; followed by the precipitation of calcium carbonate (CaCO3), and lastly the obstruction of flow paths as a result of the deposition of water impurities or the movement of some concrete bits that get detached throughout the cracking process.  

Many factors are considered in the natural way of healing, such as; temperature, degree of damage, freeze-thaw cycles, the age of the concrete and the mortar state.As for the artificial way to repair cracks in concrete, which is man-made self-healing process was first invented in 1994. The main method and first approach was to use a healing agent (adhesive) which is encapsulated inside a micro capsule, once a crack forms, it causes the micro capsules to break, releasing the healing agent, hence healing the crack. The adhesives can be stored in short fiber or in longer tubes.

PROCESS OF HEALING CONCRETE

There are many approaches to create smart concrete and enhance its properties while reducing the cost of overall use of the material. Also known as Bio-Concrete; this kind of concrete uses a simple process to close the formed crack. The main mechanism is achieved by making a concrete mixture that contains (i) a precursor like calcium lactate (Ca(C3H5O2)2) and, (ii) bacteria planted in micro capsules (or just added to the mixture) that will later germinate, once the water reaches the crack. As soon as the bacteria germinate, they produce limestone (CaCo3) caused by the multiplying bacteria. Dr. Richard Cooper of Bath’s Department of Biology & Biochemistry says that incorporating bacteria in concrete adds a double layer shield in order to prevent corrosion in steel. Not to mention that it employs oxygen present which would then benefit the process of steel corrosion.

The bacteria which are applied in this kind of concrete are Spore-forming and alkali-resistant bacteria. Bacteria from this group are the most suitable as they are spore-forming and can live for more than 200 years in dry conditions [6 – p.102]. Therefore, using bacteria as a healing mechanism is one of the best mechanisms to produce this kind of concrete because of its sustainable organic properties.

FACTOR AFFECTING SELF HEALING CONCRETE

There are many factors that intervene with the usage of this kind of concrete. As it is noticed; it is not yet used in all new constructions as it is still being under development. Recently Self-healing bacteria-based concrete has been successfully tested on a full-scale. However, the cost of using it is still not determined as it is hard to predict a full cost. The cost efficiency is one of the most important factors and will determine whether the material will have limited usage restricted to spots that are hard to fix and important constructions such as bridges and highways.Other than cost, long-term efficiency is one of the important factors as well alongside the size of the formed cracks which must not exceed 150 millimeters of depth to establish an ideal result.All in all, some factors that will definitely determine whether SHC will be used as a replacement of concrete are; the economical factor, long-term efficiency, prospect suppliers and safety factors.

CONCLUSION

•  self healing concrete appears to be much more efficient than usual concrete.

•  It will definitely reshape how architects think and design.

•  we notice that it has more advantages than disadvantages and will transform concrete from an Eco-harming into an Eco-friendly material, 

• it reduces the CO2 emissions significantly. 

• the most promising approach is the bio-concrete which is bacteria-based due to its simplicity in comparison with other mechanisms. 

• For the meanwhile, architects must develop new design methods; ones that allow flexibility in changing functions easily for instance by providing movable partitions which allow creating bigger or smaller spaces depending on the current needs.

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Water cube (beijing national aquatic center)

Water cube 

 Inside view of Beijing national aquatic center in 2008

   The national aquatic center also known as a water cube and beijing national aquatics center.

    That stadium for the swimming compitition of the 2008 summmer olympic. The building is a not actual cube but a cubical(rectangular box). After 2008 olympic turn half of its interior into water park and 8 august 2010 in reopened.

Building knowledge 

 Full name-  beijing national aquatic center

 City- beijing china

Build- 2004 to 2007

Open- 2008

Cons. Cost- USD$140million

Architect- PTW architects

                   CSCEC

                    CCDI

                    Arup group limited

Length of pool- 50m(160ft)

Width of pool- 25m(82ft)

Depth of pool- 3m(9.8ft)

Lanes- 10nos.

 The water cube will be used for curling during on the 2022 winter olympic games

Outer side of water cube and behind the beijing olympic park 

New perspective about that building

- Enclosed within bubble walls are five swimming pools

- restaurants and seating for 17,000 spectators that are somthing more about other 

- that appearance(look design) are soap bubble type.

- in that facad method was Ethyl tetrofluoroethylene (ETFE) are choose  that are there benefits are

    1) on the 1% of glass weight 

    2) better thermal insulator

    3) save 55% lighting energy at daylight

    4) 30% energy consumption resuced in                total

    5) 20% solar energy is trapped and used              for heating.

- that are most seismicall resistant building in the world.

After 2008 olympic use  half portion as a water park

Water cube night lighting view

Indoor happy magic water cube

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what is the Modular construction ?

Modular Construction

• What is the modular construction?

                   ‘Modular construction’ is a use of pre-engineered building units that are delivered to site and assembled as large volumetric components of a building. The modular units may form complete rooms, parts of rooms, or separate highly serviced units such as toilets or lifts. 

      

                  Modular construction is increasingly popular where a building is constructed off-site using the same materials and designed to the same standards as conventional on-site construction. It limits environmental disruption, delivering components as and when needed, and turning construction into a logistics exercise.

• where are they used?

            Modular buildings may be used for long-term, temporary or permanent facilities, such as construction camps, schools and classrooms, civilian and military housing, and industrial facilities. Modular buildings are used in remote and rural areas where conventional construction may not be reasonable or possible, for example, the Halley VI accommodation pods used for a BAS Antarctic expedition.^[2] Other uses have included churches, health care facilities, sales and retail offices, fast food restaurants and cruise ship construction. 

• Benefits of modular construction?

1. Rapid installation on site (6-8 units per day)
2. Economy of scale through repetitive manufacture
3. Low self weight leading to foundation savings
4. High level of quality control in factory production
5. Limited disruption in the vicinity of the construction site
6. Useful in building renovation projects, such as roof top extensions
7. Excellent acoustic insulation due to double layer construction
8. Adaptable for future extensions, and ability to be dismantled easily and moved if required
9. Stability of tall buildings can be provided by a braced steel core.
10. low waste construction.
11. environment friendly construction process.

• Application of modular construction

1. Suitable for buildings with multiple repeated units
2. Size of units is limited by transport (3.6m x 8m is typical)
3. Open sided units can be created (by changing the floor orientation)
4. Modules are stacked with usually no independent structure
5. Self weight of 1.5 to 2 kN/m²
6. 4 to 10 storeys (6 is usually the optimum)
7. Fire resistance of 30 to 60 minutes provided
8. Acoustic insulation is provided through double layer walls and floors.

•  Types of modular construction

1. 4-sided modules
2. Partially open-sided modules
3. Open-sided (corner-supported) modules
4. Modules supported by a primary structural frame
5. Non-load bearing modules
6. Mixed modules and planar floor cassettes
7. Special stair or lift modules. 

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