Traditionally, membrane structures are used for weather protection during open-air festivities. In these occasions, it is very common to use standard rental tents. These rental tents are designed without any relation to a certain location. For unique locations, such as places of cultural historical importance and which are regularly used for festivities, temporary removable structures are an interesting alternative. This has both architectural and technical advantages. For example, the design can interact with the unique character of the location. From a technical point of view this gives the possibility of permanent foundations. In the past years Tentech developed a new approach for easily removable or semidemountable structures. On the basis of three case studies (figs 1 and 2) this approach will be discussed. In this discussion aspects and considerations like: structural safety and load cases during erection and utilisation, degree and way of divisibility, connection detailing, materialisation and restriction of assembly time will be discussed. Figure 1 Open-air Theatre, Soest (NL). 2 Soest Open-air Theater The first project in which a temporary structure became seriously in question was for a stage covering of the open-air theatre in Soest (the Netherlands) (fig 1). The location of the open-air theatre is of ecological importance and is part of a national system of connected nature reserves. Therefore permanent buildings were not allowed and even some existing buildings were removed. The expensive agricultural land was given back to nature. Under these circumstances our client, a local government, had to handle carefully. A permanent structure would have lead to resistance, while a Adaptables2006, TU/e, International Conference On Adaptable Building Structures Eindhoven The Netherlands 03-05 July 2006 Temporary, easily removable structures, Rogier Houtman and Harmen Werkman 5 retractable structures was to expensive. Therefore a dismountable structure was examined during the design process. In this particular project a layout with two freestanding masts and a free hanging membrane was chosen. The intention was to use the columns like cranes to hoists the membrane in position. This concept is in fact very similar to a normal erection procedure of permanent tensile structure, like for instance the Bluemoon canopy in Groningen (the Netherlands). In the case of the Soest covering, the membrane and other structural elements were dismountable and could be stored during the winter. Beside increasing costs one of the main problems was that both the local government and theatre organization do not have the disposal of an appropriate crew. Therefore an compromising solution was chosen, in which the possibility of dismantling the structure was arranged by a professional crew and additional hoisting equipment (mobile crane). However, after almost four years of use the covering has not been dismantled yet. The possibility of dismantling was in fact a political argument to rebut any resistance what has to do with the vulnerable site. Nowadays, the stage covering and natural surroundings are forming a harmonious entirety and provide for an unique location for theatre and performances. 3 Temporary Square covering Groenlo The design of the Soest tent lead to a new project: a square covering for the Nedap company in Groenlo (the Netherlands) (fig 2). On the square in front of the company’s head quarter the management board wanted a simple-to-erect structure for diverge performances. The square covering is positioned in front of the entrance façade. In this way a closed area is created for public and performances. The design of the structure is in many ways a continuation of the Soest concept. In this project the idea of using permanent columns for hoisting the membrane structure into position is worked out in detail. Because Nedap has the disposal of a technical staff it was not hard to form a appropriate crew for assembling the structure. Starting points for the engineering were a crewsize of 2-3 persons and an maximum assembly time of 4 hours. From an architectural point of view the client worked with high standards towards detailing and material usage. Figure 1 Temporary square covering, Groenlo. Although in an architectural point of view a satisfactorily result was reached, it was not simple to integrate hoisting facilities into the masts sections. Besides that the client wanted slender columns without any protrusions or additional elements. Hoisting facilities had either to be fully integrated inside the masts or to be totally dismountable if they would have been placed outside. Here is was chosen to place the hoisting system outside the masts so they are removable. This does not improve the speed of the installation process and asks for special attention of the crew. Nevertheless the size of this structure is small and it is possible to erect it within 4 hours with 4 people (employees of the company, who know how the system works). 3 Temporary Square Covering Franeker As part of the redevelopment of the town centre of Franeker a semi-permanent square covering was planned. The structure provides for weather protection during several open-air events during the Adaptables2006, TU/e, International Conference On Adaptable Building Structures Eindhoven The Netherlands 03-05 July 2006 Temporary, easily removable structures, Rogier Houtman and Harmen Werkman 6 whole year. Architect Klaas Klamer designed a tensile structure which emphasizes the diagonal of the rectangular square. In this way a route between the two important shopping streets is created (fig 3). The main axis is almost 35 metres long, in perpendicular direction the structures measures 25 metres. The membrane roof is supported by two permanent columns on the diagonal axis and six dismountable edge poles aside. Permanent guying cables were not allowed, therefore the two columns are moment resistant connected to the foundation. Only when the membrane is present the columns are supported by cables for additional stability. This means different deformation behaviour in both cases. Therefore a lighting structure, which is suspended between the columns, is connected by a specially designed spring system. In both cases this spring connection provides for sufficient tensioning in the suspension cables. Part of the engineering task of Tentech was to provide a simple assembly procedure. A small crew of volunteers has to take care of the assembly. Therefore a simple and fast erection procedure is developed. The first phase of this procedure is to lay out and connect all dismountable elements on ground level. Because of the weight restrictions and easily handling the membrane is divided into two parts which can be connected easily by a structural zip. The same reasons lead to the appliance of fibre reinforcement of a synthetical material instead of steel. In this case Vectran fibres are used in a polyester hull. These belts which measure 4 x 50 mm in section can withstand forces up to 135 kN. Because the forces in the main cable reaches almost 400 kN several belts are combined in a structural way. In the next phase the whole structure will be lifted up to its definite height (15 metres). Therefore the main cable of the membrane structure is connected to hoisting rings which are fixed around the main columns. Hoisting rings and complete structure (including the guying cables of the main columns) are lifted up by wire rope hoists which are integrated in de basements of the main columns. The system will be secured when the hoisting rings has reached ultimate height. Onwards then the main columns are guyed for additional stability and a safe situation is reached for (pre)tensioning the membrane. In the third and last phase the membrane is tensioned in peripheral direction by using the edge poles. By pulling these masts in peripheral direction the membrane is (pre) tensioned. Because of large forces special equipment like fork-lift trucks or Tirfors are necessary. During this operation ball joints in the masts ensure sufficient freedom in movement. Once in position the guying cables have to attached and when necessary tensioned. Because the complete structure is adjusted during the first assembly, adjustments are not necessary during next assemblies. By using the procedure mentioned above it is possible to erect the membrane structure in almost four hours by a crew of six people. Until now, the structures of almost 660 m2 is built for two times. In these periods it withstands both strong wind loading and snow loads and it behaved even in these circumstances quiet well. Light and acoustic conditions are well and by adding special designed walls nice spaces are created underneath the covering. The spaces which will provide a shelter to many open-air events in the historical town of Franeker Figure 3 Temporary square covering, Franeker. Adaptables2006, TU/e, International Conference On Adaptable Building Structures Eindhoven [The Netherlands] 03-05 July 2006