ICCX Central Europe 2019 - программа конференции
13. - 15.02.2019, Warsaw, Poland
13 февраля 2019 года / Сборный железобетон
|10:00 -10:30||Кристиан Прилхофер||Германия||Строительство с двойными стеновыми панелями - оптимизация структуры и эффективность строительства|
|10:30 -11:00||Вит Дерковски||Польша||Текущие наработки в области производства сборных железобетонных плит перекрытий. Практическая и научная точка зрения|
|11:00- 11:30||Хольгер Хоффшрёэр||Германия||Успешная концепция городского развития с фешенебельными зданиями. Практический пример из Австрии|
|11:30 - 12:00||Александр Шевчук||Украина||Разработка проектов с использованием сборных железобетонных компонентов - привлекательные, доступные решения в Украине|
|15:00 -15:30||Пшемыслав Борек||Польша||Современные решения для жилищного строительства из сборного железобетона в Польше|
|15:30- 16:00||Гюнтер Йош||Германия||Обзор современных строительных проектов с жилыми модулями из сборного железобетона|
|16:00 - 16:30||Андреас Цинсмайстер||Германия||1 день, 1 дом – жилые модули из сборного железобетона позволяют построить полностью оборудованный дом за один день|
ICCX Evening event
- 19:00 – 23:00 Dinner at Garden Restaurant
- 22:00 – 04:00 ICCX Party at Club Zazen
14 февраля 2019 / Бетонная техника / Инфраструктура
|10:00 -10:30||Agnieszka Kurzemska||Poland||Perspectives for the construction industry in Central Europe|
|10:30 -11:00||Франк Хуппертц||Германия||Экологичность бетона – парадокс?|
|11:00- 11:30||Йоханнес Грош||Германия||Многофункциональное производство бордюрного камня|
|11:30 - 12:00||Бенжамин Шеффлер||Германия||Многофункциональные шумопоглощающие плиты из сверхпрочного бетона|
14 февраля 2019 / Бетонная продукция
|15:00 -15:30||Клаус Зайферт||Австрия||Выбор сырья для производства бетонных блоков без ущерба для качества|
|15:30- 16:00||Вольфрам Франке||Норвегия||Альтернативные вяжущие для бетонных изделий - экономические и экологические преимущества|
|16:00 - 16:30||Юрген Мартин||Германия||Как две капли воды: равномерное заполнение формы и неизменно высокое качество изделий|
15февраля 2019 / Академический технологический курс
Improving concrete production: quality, processing, development
On the third day, the ICCX Academy – technology course follows on from the two-day conference with its accompanying trade exhibition. The organisers of the ICCX Central Europe 2019 have been able to gain Mr Klaus Seifert M.-Eng. from Concrete ProCess Consulting e.U., Austria, as course director. Behind the name, Concrete ProCess Consulting e.U., is an engineering office for process engineering and concrete technology as well as management consulting and company organisation. Mr Seifert possesses more than 40 years experience in industry and almost 25 years in the concrete block industry.
The half-day ICCX Academy – technology course on the subject: “Improving concrete production: quality, processing, development” will deal with the following main topics for concrete block manufacturers:
- Quality management
- Laboratory and process optimisation
- Product development with respect to differing means of concrete optimisation and their associated finishing technologies
Self-compacting steel fibre reinforced concrete
|Self-compacting concrete has found its way into precast production industry since it’s introduction at the end of the previous century. Steel fibre reinforced self-compacting concrete is as well an interesting option to be explored. Adding fibres to a mixture influences its workability. However, a smart design of the mixture enables self-compacting properties even up to fibre contents of 140 kg/m3. This can be achieved for concrete’s with compressive strengths ranging from about 60 to 180 N/mm2 and fibres with lengths between about 15 and 60 mm. A point of attention is the fibre orientation, which depends on the flow direction of the concrete and as such depends on the casting process. This, however, can be also be used to optimize the properties of the hardened precast element.|
J.C. Walraven, Netherland
Roads and other private, public and commercial surfaces made from concrete
|The constantly changing environment and increasing innovation pressure on project developers and architects when designing and engineering roads and other private, public and commercial surfaces are factors that call for the use of new material solutions. The solutions offered by Lafarge in Poland provide an answer to the requirements in the areas of durability, aesthetics, usability value, and adaptability when it comes to individual project prerequisites. Amongst these solutions, there are concretes for high-speed, long distance road surfaces boasting high usability and durability parameters, concretes for parking facilities and other private, public, and commercial surfaces, concretes for green areas, bicycle ways, and skate parks. We are using our technological know-how in the area of material properties to effectively support investments in projects of this nature. This entails that we will be actively participating in the entire investment process, ranging from the initial project concept to its ultimate construction and execution stages including all architectural management. The technological solutions offered for these tasks, including relevant examples for project support and execution will be elaborately presented at the ICCX.|
|Bogusław Lasek – graduate of the Faculty of Civil and Environmental Engineering at the Rzeszów University of Technology. Since 2003 he has been working in the field of production and distribution of construction products. He started to work at Lafarge in 2008 as a Concrete Technologist. Currently, he is responsible for technology and quality of concrete and aggregate in the Construction segment.||
Bogusław Lasek, Poland
Readymix concrete acc. to PN-EN 206 – National certificate of conformity for material testing
|The year 2017 will bring about a number of changes for the manufacturers of readymix concretes, changes that are based on modifications in legal provisions. These new provisions will demand that manufacturers will have a documented and, in the case of core concrete, also certified system for the in-house quality control of their production facilities. This presentation will take a look at the most important modifications in applicable legal provisions with particular consideration of the requirements imposed on manufacturers. Furthermore, the presentation will include an analysis of the required documents that will have to accompany a building material, i. e. a performance declaration and information regarding material identification tags. For products that come under the national rating and verification system of performance stability class 2+, it has been determined that such products should have a national certificate of conformity, i. e., a document of control, for the relevant production facility.|
|PhD Eng. Grażyna Bundyra-Oracz Grażyna Bundyra-Oracz has worked as the Director of the Instytut Materiałów Budowlanych i Technologii Betonu Sp. z o.o. (Institute for Building Materials and Concrete Industry) since 2010. In 2000-2009 she was an employee of the Institute for Construction Engineering. In 2000 she graduated from the Stanisław Staszic AGH University of Science and Technology in Cracow. In 2006 she acquired the PhD title in construction based on a thesis regarding compatibility factors in the cement-superplasticiser system. Her fields of interest are chemistry and technology of mineral binding materials, technology and designing of standard and special types of concrete.||
Grażyna Bundyra-Oracz, Poland
Architectural concrete - from specification to execution
|The growing interest in architectural concrete in Poland, which we have observed in the past few years, means that more and more architects and investors want to use this product in their projects. The recently published information about completed and successful construction projects in which architectural concrete was the leading material also confirms that there are more and more investments where concrete as construction material is decisive as far as the visual perception of a building is concerned. The universality of the application of architectural concrete is also confirmed by the fact that the already designed museums or museums being under construction in Warsaw and its vicinity will be basically made of architectural concrete.|
|Krzysztof Kuniczuk, a graduate of the Faculty of Civil Engineering at Warsaw University of Technology. Since 1998 he has worked in the field of concrete technology, initially as a technologist, later as a regional manager in the quality department of concrete and aggregates of Cemex Polska Sp. z o.o., then as a director of quality and technology department at Lafarge Kruszywa i Beton Sp. z o.o. At present, he is a consultant in the field of architectural concrete and special concrete for architects, contractors and investors in the company Technologia Betonów Architektonicznych i Specjalistycznych (Architectural and Specialized Concrete Technologies).
Krzysztof Kuniczuk participated as an advisor and architectural concrete engineer in the construction of many buildings with the use of architectural concrete. He also supervised the process of production, delivery and installation of concrete mix. He cooperated with architectural offices as a consultant and author of architectural concrete specifications for new buildings (e.g. Polish Army Museum, Museum of Contemporary Art). Kuniczuk is the author and co-author of many publications on architectural concrete and self-compacting concrete, among others the only monograph on the Polish market describing aspects related to the design, manufacture, repair and acceptance of architectural concrete, entitled Beton architektoniczny – wytyczne techniczne (Architectural concrete - technical guidelines).
Krzysztof Kuniczuk, Poland
Fibre reinforced precast concrete pipes
|The use of fibre reinforced concrete (FRC) has proven to be attractive for sewerage concrete pipes (CPs) from both a technical and an economic point of view. This is particularly true for internal diameters ranging from 300 to 1,000 mm. Fortunately, the EN 1916:2002 standard already regulates the use of steel fibre reinforced concrete (SFRC) for CPs. Polypropylene fibres, however, have not yet been contemplated, although their use could also be an interesting alternative for pipes exposed to very aggressive environments.
The objective of this research is twofold: (1) to propose and calibrate, by means of three edge bearing test results, a formula to design FRCPs valid for both types of fibres; (2) to compare, from the sustainability point of view (economic, environmental and social), several alternatives of reinforcement (steel bars, steel and polypropylene fibres) for pipes with diameters up to 1,000 mm and different strength classes.
|Albert is a PhD Civil Engineer, Associate Professor at the Civil and Environmental Engineering of the UPC. His research interest is focused on the field of optimization of concrete structures, fiber reinforced concrete design and material characterization as well as on aspects related to multi-criteria decision-making systems for sustainability assessment. Published more than 45 papers on international indexed journals. Directed 6 PhD thesis and 30 Master thesis in the last 5 years. He is co-founder of the spin-off company Smart Engineering.
Albert de la Fuente Antequera, Spain
It’s the structure that counts: Sewerage systems made from steel reinforced concrete – engineering and manufacturing challenges and market introduction
|To meet the challenge of sedimentation of solid particles in wastewater, structural elements in the bottoms of sewers and gravity pipelines have been found to be effective. In a research project carried out by IAB Weimar gGmbH, scientists have now succeeded in developing such elements and integrating them in DN 300 slot channels made from steel reinforced concrete used for zones with severe (D400) and even extremely severe (F900) burdens. The results of comprehensive investigations on flow and sedimentation behaviour carried out in the IAB test lab have shown that structured sewer channels, in comparison to smooth channels, have positive effects on the clearing behaviour even at low volume flow rates (~ 25 % of max work load).|
|Dr.-Ing. Rolf Lohse: 1998 to 2004 studied Process Engineering at the Technical University of Chemnitz; 2010 doctorate; 2004 to 2011 research associate at the Professorship of Technical Thermodynamics at the Technical University of Chemnitz; since October 2011 research associate at the Institute of Precast Technology and Precast Construction Weimar (now called the IAB – Institute of Applied Construction Research Weimar gGmbH) in the specialist area of simulation
Rolf Lohse, Germany
Precast Buildings in Central Europe: Experiences from Hungary and Romania
|After the fall of the communist system in the Central European countries (among others in Hungary and Romania) the precast concrete industry, that had been characterized by the mass production of functional, but less attractive buildings, took a turn. Beside the long span hall frame structures the residential usage of the precast elements became more and more important. The challenges of the building industry, e.g. the lack of human labor force could be solved by the development of new materials and structural systems. Among others these circumstances change the features of this branch.|
Zsolt Kovacs, Hungary
Role of modern construction technology in the implementation of the National Housing Programme
|BGK Nieruchomości S.A. is a subsidiary of Bank Gospodarstwa Krajowego, whose task is to support the economic development of the country and improve the quality of life of Poles. BGK Nieruchomości S.A. reinforces the potential of the nationwide housing market by implementing investments that are important to local communities. Our mission is to increase the availability of rental housing, also for less privileged families. We operate on a commercial basis without involving taxpayers.
National Houdsing Programme is a program that includes construction of affordable housing for rent, with access to future ownership rights. Residential investments are carried out on a market basis, on real estate currently owned state treasury, local government units and private investors.
|Grzegorz Muszyński, Member of the Management Board of BGK Nieruchomości S.A.
Graduate of the John Paul II Catholic University of Lublin, Technical University of Lublin and University of Illinois, USA. In 1993-2007 he managed a company responsible for the repair of track structures and general construction services. In 2016 he was a member of the Management Board for investment issues at PKP Polskie Linie Kolejowe S.A. From 2007 until 2013 he was the President of Port Lotniczy Lublin S.A. (Lublin Airport). In this period the company implemented the largest investment in the Lublin Voivodship and at the same time the first investment on such scale in Poland after 1989 - the construction and start-up of international airport in Lublin (the project was completed according to the schedule). Since 2014 he was the attorney of the Management Board of the Lublin Voivodship for development and modernization of the Oncology Centre of the Lubelskie Region and then the coordinator of its construction. He was involved, among others, in the activities of the Polish Community, an organization supporting Polonia in the East.
Grzegorz Muszyński, Poland
BIM in civil engineering in the context of Industry 4.0 trend
|Witnessing vast changes that occur in the global construction industry as a result of the development of BIM (Building Information Modelling) digital tools, it is important to notice the influence of this process on the labour market in construction. Modern technology entering the construction industry, that is 3D-print, the virtual and augmented reality, Internet of Things, remotely controlled or autonomous construction machines, or even cloud processing, require new skills of the employees. This refers to all participants of the construction process, and not only the designers, as it used to be in the 90s of the 20th century when CAD technologies were being introduced. More importantly, practically all those technologies are based on the BIM model to a greater or lesser extent. And similarly to how the sudden and violent computerization in the last century started an expansion era of the IT professions, in the coming years the BIM revolution will affect similar changes in the construction industry.|
|Marek Salamak, Technical University of Silesia. Associate Professor in the Department of Structural Mechanics and Bridge Structures of the technical University of Silesia. Expert in the field of bridge construction, in particular bridges made of reinforced concrete and bridge dynamics. Bridge designer and surveyor. Founder of accredited research laboratory for bridges at the Technical University of Silesia. Specialist in CAD and BIM techniques. Author of BetCAD, a program for bridge design, which became popular in the industry. Coordinator of Asia-Link, a European project aimed at the establishment of a basis for training system for bridge surveyors and bridge management in South-East Asia. Member of the European BIM Certification Centre Council. President of the Upper-Silesian Union of Bridge Constructors of the Republic of Poland.||
Marek Salamak, Poland
Planning, production, assembly, and marketing of low-price precast housing
|In the era of digitalized 3 D planning, construction with the liquid artificial stone known as ”concrete“ offers totally new opportunities for substantially simplifying traditional and usually cumbersome processes and conditions prevailing on construction sites. Industrially prefabricated components will force everyone involved in the construction process to carry out planning procedures that are detailed and to integrate all required workmanship and operations at an early stage even before the first foundation has been cast. Today, the opportunities of 3 D visualization employed in the planning stage surpasses all hitherto known frontiers and permits the production of precast elements comprising a wide range of installations and inserts. The applicable rule of thumb is rather simple: the earlier and more detailed all workmanship and operations are included already in the planning stage, the better the return on investment, without any need of compromise in terms of high-end, sound, solid, and monolithic construction. Holistic serially produced precast components, roofs, windows, prearranged and preassembled installations at an early stage are the trendsetters for today’s activities in modern construction businesses.|
|Volker Weidemann, born 1963.
Master craftsman specialising in electrical engineering;
1988 Automation and process technology;
1991 Economics and business administration, German Chamber of Industry and Commerce;
1984 Engaged at Walther-Mühle KG, project management “Fully automated 24 hour operations”;
1987 Engaged at Lösch Betonwerke GmbH, commissioning of the first CAD-CAM controlled element floor production facility;
1991 Promotion to senior management and construction of the first multi-functional system for double walls;
1997 Development and set-up of component manufacturing system and member of the senior management team at Lösch Systembauteile GmbH & Co. KG;
2007 General management of CEMEX Beton-Bauteile GmbH with 5 production sites and 400 employees;
2013 Senior management of xebex GmbH focussing on production and then system components from 2016 onwards.
Volker Weidemann, Germany
Optical Quality Control in Concrete Block Production
|Concrete blocks are nowadays no longer simply square, grey and practical. A transformation has taken place. On streets and precincts as well as in public and private spaces, concrete blocks welcome us with a fullness of shapes, colours and surface structures. The concrete products employed within these environments are manufactured, handled and palletised in fully automated concrete production facilities. Human input is mostly limited to process and quality monitoring|
Justus Lipowsky, Germany
Design thinking - a contemporary method of creating paving products
|The dynamic development of spatial and urban planning, as well as increased requirements in the paving product segment in the public and private investment sector forces the producers of concrete materials to prepare new and more creative product offers. Conscious clients expect aesthetic and functional products, but above all products that meet all technical requirements. The modern method for developing innovative products -DESIGN THINKING - allows to provide customers with exactly this kind of solutions. This innovative approach to the creation and implementation of products has been invented at Stanford University in California. The first promoter of the design thinking idea was David M. Kally, the author of IDEO - a leading organization of innovative products. DESIGN THINKING has become a commercially applied tool and the rapid expansion of new thinking into the areas of global business pushed David Kally to set up the Institute of Design at Stanford University. This interdisciplinary design center implements tasks and strategies for many industries and institutions worldwide. A promoter of this method in Europe is the HPI School of DESIGN THINKING in Potsdam.|
|Joanna Skrzypek Head of the R&D and Project Department at Libet S.A. Graduate of Landscape Architecture at the University of Environmental and Life Sciences in Wrocław and Interior Architecture and Design of the Silesian University of Technology as well as Psychology in Business at the School of Banking in Wrocław. Joanna Skrzypek combines design and technology, thus creating innovative, multifunctional concrete forms which change the space and surroundings through introducing non-standard solutions. She cooperates with universities of arts, in particular with faculties of Industrial Design, which results in a synergy effect that translates into unconventional and original designs of concrete materials.||
Joanna Skrzypek, Poland
Concrete pavers with triple protection
|The production of concrete pavers as a mass product with consistently high quality requires manufacturers to adopt efficient technologies and quality assurance strategies. Pricing pressures in a competitive industry can best be met with innovative technology coupled with a perfect understanding of clients’ requirements. The German company Gerwing developed a new concrete product with superior aesthetics and durability properties. Manufacturing tech - nology and marketing strategies for this successful product will be introduced.|
Ideas with Added Value – Intelligent Solutions for Construction Material Machines
|A wide range of processes and production machinery exists for manufacturing construction materials. Their technological level has attained a high standard in industrial countries so that fundamental innovations seldom occur. However, improving or advancing established manufacturing processes by means of innovative (partial) solutions can offer benefits for construction material manufacturers, such as for example:
Justus Lipowsky, Germany