{"id":10243,"date":"2017-09-15T09:37:25","date_gmt":"2017-09-15T12:37:25","guid":{"rendered":"https:\/\/www.amchamchile.cl\/?p=154114"},"modified":"2017-09-28T16:56:30","modified_gmt":"2017-09-28T19:56:30","slug":"el-salto-de-la-ingenieria-antisismica-made-in-chile","status":"publish","type":"news","link":"https:\/\/amchamchile.cl\/en\/noticia\/el-salto-de-la-ingenieria-antisismica-made-in-chile\/","title":{"rendered":"[:es]El salto de la ingenier\u00eda antis\u00edsmica made in Chile[:en]The advances of earthquake engineering \u2018Made in Chile\u2019[:]"},"content":{"rendered":"

[:es]Luego de que la empresa SIRVE, creada por dos acad\u00e9micos de la universidad cat\u00f3lica, demostrara la calidad de sus tecnolog\u00edas de protecci\u00f3n s\u00edsmica en chile tras el 27\/F, est\u00e1 consolidando su internacionalizaci\u00f3n, \u00e1mbito en el que han sido claves su participaci\u00f3n en estudios con universidades y entes gubernamentales en EE.UU., la apertura de una oficina en Per\u00fa y sus operaciones en Nueva Zelanda. <\/strong><\/p>\n

Por Mar\u00eda Ignacia Medina<\/em><\/p>\n

Tras comprobar que su familia estaba bien, lo primero que hizo el arquitecto y empresario Abraham Senerman la noche del terremoto del 27\/F fue conducir desde su casa hasta la Torre Titanium, en ese entonces la m\u00e1s alta de Santiago y ad portas de su inauguraci\u00f3n. A\u00fan de madrugada, ingres\u00f3 junto a un grupo de profesionales para inspeccionar los subterr\u00e1neos en busca de da\u00f1os. Salvo detalles menores, el edificio no sufri\u00f3 deterioros estructurales. \u201cPasamos la mejor prueba en el mundo para un edificio de esta altura de hormig\u00f3n armado\u201d, coment\u00f3 posteriormente, alabando no s\u00f3lo la calidad de la construcci\u00f3n, sino tambi\u00e9n al sistema antis\u00edsmico del edificio basado en disipadores de energ\u00eda.<\/p>\n

\"\"<\/p>\n

Una dura prueba que SIRVE, la empresa que implement\u00f3 la soluci\u00f3n de protecci\u00f3n s\u00edsmica en ese edificio, super\u00f3 con creces en \u00e9ste y otros doce proyectos \u201cmuy emblem\u00e1ticos, como el Hospital Militar y el muelle de Coronel, donde hab\u00edamos desplegado esta tecnolog\u00eda hecha en Chile con mano de obra local\u201d, subraya el socio y fundador de la firma, Juan Carlos de la Llera, sobre las consecuencias de esta emergencia que marc\u00f3 un punto de inflexi\u00f3n en la iniciativa que emprendi\u00f3 junto a Carl L\u00fcders en 1996, apoyados por la Direcci\u00f3n de Investigaciones Cient\u00edficas y Tecnol\u00f3gicas de la Universidad Cat\u00f3lica (DICTUC).<\/p>\n

\u201cFuimos capaces de demostrar que, en Chile y Latinoam\u00e9rica, se pod\u00eda enfrentar un sismo de gran magnitud con buenos resultados. Nunca nadie hab\u00eda probado disipadores de energ\u00eda en un edificio como el Titanium en un terremoto de casi tres minutos, lo que produjo dos efectos: llamamos la atenci\u00f3n hacia la ingenier\u00eda civil chilena, y ganamos varios premios, incluso internacionales\u201d, recuerda de la Llera, quien fue galardonado en 2011 con el Endeavor Award entregado en la ciudad de San Francisco, Estados Unidos.<\/p>\n

La vocaci\u00f3n p\u00fablica<\/strong><\/p>\n

Con su foco en soluciones integrales de ingenier\u00eda en protecci\u00f3n, dise\u00f1o estructural y revisi\u00f3n s\u00edsmica de proyectos, la capacidad demostrada por SIRVE se sustenta en un activo desarrollo tecnol\u00f3gico e innovaci\u00f3n. Un sello que arranca en 1995 cuando de la Llera, ingeniero civil de la UC, volvi\u00f3 de su doctorado en modelamiento y din\u00e1mica estructural de reducci\u00f3n de vibraciones y riesgo s\u00edsmico en la Universidad de Berkeley. En aquella \u00e9poca, sinti\u00f3 la necesidad de implementar una l\u00ednea de ingenier\u00eda s\u00edsmica distinta a la vigente en ese entonces en el pa\u00eds. \u201cEn Chile, lo \u00fanico que dec\u00eda la norma para un evento s\u00edsmico, respecto a las estructuras, era que \u00e9stas no pod\u00edan colapsar ni implicar la muerte de personas. En ese momento, reci\u00e9n se desarrollaba en el mundo el concepto de la protecci\u00f3n en dos tecnolog\u00edas: aislamiento s\u00edsmico \u2013que separa las estructuras del suelo con grandes rodillos de gomas\u2013 y disipadores de energ\u00eda, especies de amortiguadores que disipan la vibraci\u00f3n\u201d, recuerda el tambi\u00e9n decano de la Facultad de Ingenier\u00eda de la UC sobre el escenario en el cual su equipo trabaj\u00f3 para adjudicarse, en 1996, un Fondef por $ 400 millones, capital que destinaron a investigaci\u00f3n e instalar un laboratorio de pruebas. Luego de dos a\u00f1os, pasaron a la etapa de constituci\u00f3n de SIRVE, que en el per\u00edodo entre 2003 y 2010 fue creciendo \u201cde manera constante \u2013con uno o dos proyectos por a\u00f1o, para llegar actualmente a una facturaci\u00f3n en torno a $ 4.500 millones\u2013 a pesar de que se cre\u00f3 desde la motivaci\u00f3n de dos acad\u00e9micos y de estudiantes extraordinarios que, despu\u00e9s de quince a\u00f1os, siguen ac\u00e1 a punta de esfuerzo; y con quienes seguimos reinventando esta empresa que tiene un ADN de innovaci\u00f3n\u201d.<\/p>\n

Respaldada desde 2009 por el Fondo Copec UC (formado por la universidad y dicha compa\u00f1\u00eda) que ingres\u00f3 a su propiedad, SIRVE tiene a su haber una trayectoria que parti\u00f3 en el Centro M\u00e9dico de San Carlos de Apoquindo UC, y sigui\u00f3 con proyectos en los hospitales de Antofagasta, F\u00e9lix Bulnes y Exequiel Gonz\u00e1lez Cort\u00e9s, el estanque de GNL Mejillones y el Centro de Innovaci\u00f3n UC Anacleto Angelini.<\/p>\n

Junto a su participaci\u00f3n en una iniciativa emblem\u00e1tica de rescate patrimonial, como la rehabilitaci\u00f3n de la Bas\u00edlica del Salvador, el mayor proyecto actual es el que est\u00e1n realizando para el Complejo Fronterizo Los Libertadores. Ambas iniciativas van en l\u00ednea con la vocaci\u00f3n de la empresa de aportar al \u00e1mbito p\u00fablico, lo que tambi\u00e9n se refleja en su inter\u00e9s de promover la protecci\u00f3n de los hospitales a trav\u00e9s de proyectos que actualmente est\u00e1n en negociaciones con el Ministerio de Salud.<\/p>\n

\u201cYa no s\u00f3lo nos preocupa lo esencial, respecto de que las personas no corran riesgos, sino tambi\u00e9n que los edificios cumplan con una continuidad operativa\u201d, indica. No obstante, de la Llera reconoce que los proyectos privados tienen un peso cada vez mayor en la cartera de SIRVE.<\/p>\n

Las claves de la internacionalizaci\u00f3n<\/strong><\/p>\n

Uno de los grandes objetivos de SIRVE es la internacionalizaci\u00f3n, \u00e1mbito en el cual han sido fundamentales las experiencias desarrolladas en Estados Unidos. Entre las m\u00e1s importantes, destaca su participaci\u00f3n en 2012 en un proyecto en California \u2013dirigido por la Universidad de San Diego y el Network for Earthquake Engineering Simulation (NEES)\u2013 que someti\u00f3 a un edificio de cinco pisos, habilitado como hospital, a un duro test de resistencia s\u00edsmica sobre una mesa vibradora \u2013la mayor disponible en el momento en ese pa\u00eds\u2013 para estudiar el comportamiento de sus estructuras y equipamiento interior. El aislamiento s\u00edsmico aplicado en ese ensayo fue dise\u00f1ado por los ingenieros de SIRVE, experiencia que fue seguida por su participaci\u00f3n en distintas propuestas en Estados Unidos.<\/p>\n

Otro paso clave en el exterior tuvo lugar en 2015 con la apertura de una oficina en Per\u00fa, desde la cual ha realizado proyectos de disipaci\u00f3n de energ\u00eda antis\u00edsmicos en inmuebles como las torres Panorama, Orqu\u00eddeas, Barlovento y Atlantik Ocean Tower. A la fecha, su trabajo m\u00e1s ambicioso en el exterior corresponde a un sistema de control de las vibraciones producidas por el viento en el edificio m\u00e1s alto de la ciudad de Auckland, Nueva Zelanda, pa\u00eds en el cual est\u00e1n trabajando con firmas locales y capitales chinos, indica de la Llera.<\/p>\n

Para abordar las oportunidades m\u00e1s all\u00e1 de nuestras fronteras, resalta que los grandes desaf\u00edos son potenciar la dimensi\u00f3n comercial y la b\u00fasqueda de capital. \u201cEstamos en proceso de b\u00fasqueda de capital para dar un salto importante, lo que debe venir acompa\u00f1ado de inversi\u00f3n; lograr que esta empresa facture US$ 50 millones o US$ 100 millones es totalmente factible\u201d, indica.[:en]SIRVE, a company created by two academics from the Universidad Cat\u00f3lica, has successfully demonstrated the quality of its earthquake-resistant technology following the so-called \u201827\/F\u2019 earthquake that struck Chile in 2010. The firm is now consolidating its international presence through which it has, to date, participated in numerous research studies with distinct universities and US government bodies, opened an office in Peru and established operations in New Zealand. <\/strong><\/p>\n

By Mar\u00eda Ignacia Medina<\/em>\u00a0<\/em><\/p>\n

After having checked that his family was safe, the first thing that the architect and businessman, Abraham Senerman, did after the large earthquake that struck Chile in the early hours of 27 February 2010 was to jump in his car. He then drove from his house to the Torre Titanium skyscraper in the east of Santiago, which at the time was the tallest building in Chile and just days away from its official opening. Even though it was almost dawn (the earthquake struck at 3:34 am local time), Senerman and his team of professionals entered the building to inspect the extent of the damage to its subterranean floors. Apart from minor superficial issues, the skyscraper was structurally sound. \u201cWe had passed the biggest test in the world for a building of this height made of reinforced concrete\u201d, he later commented, praising not only the quality of the construction but also the seismic system of energy dissipation incorporated into its design.<\/p>\n

\"\"<\/p>\n

SIRVE was responsible for the earthquake protection system deployed in the Titanium Tower and, as a result of 27\/F, the company had proven itself more than capable of overcoming a large magnitude event. In addition to this skyscraper, the firm has also designed an additional 12 earthquake engineering projects that are \u201chighly emblematic\u201d, notes the partner and founder of the firm, Juan Carlos de la Llera, \u201cincluding the Military Hospital and the Coronel Pier, (and) in which we have used technology that is made in Chile and implemented using local manpower\u201d he adds.<\/p>\n

The 27\/F earthquake was a major event due to the subsequent emergency it produced in Chile. It also marked a turning point for the initiative that de la Llera had initially launched with Carl L\u00fcders in 1996, having obtained support from the Direcci\u00f3n de Investigaciones Cient\u00edficas y Tecnol\u00f3gicas (Directorate of Scientific and Technological Research) of the Universidad Cat\u00f3lica. Following 27 February 2010, \u201cwe were able to demonstrate that, in Chile and Latin America in general, it is possible to experience a large magnitude earthquake and still see positive results. Nobody had ever tested energy dissipaters in a building like the Titanium Tower during a three-minute earthquake, and the favorable outcome had two main effects: we secured increased recognition for the Chilean civil engineering scene, and we ourselves won several prizes, including international ones\u201d, says de la Llera. Indeed, de la Llera was subsequently bestowed with the prestigious Endeavor Award in 2011 in the US city of San Francisco.<\/p>\n

Public vocation<\/strong><\/p>\n

SIRVE focuses on comprehensive engineering solutions in the areas of protection, structural design and review of earthquake projects, with a proven approach that is founded on active technological development and innovation. This vision originated in 1995 when de la Llera, who received his formative civil engineering training at the Universidad Cat\u00f3lica, returned from the University of Berkeley in the US having obtained a doctorate in the modelling and structural dynamics of vibration reduction and seismic risk. At that time, he felt the need to pursue a line of earthquake engineering that differed from the one being practiced in the country. Accordingly, the engineer, who in addition to his duties at SIRVE is Dean of the Faculty of Engineering at the Universidad Cat\u00f3lica, recalls: \u201cin Chile, the only thing that earthquake regulations stipulated (in the mid-1990s) in terms of buildings was that they were not allowed to collapse or cause fatalities. However, at that point in time, there was also a brand new international concept for protecting buildings against earthquakes via two specific types of technology: seismic base isolation, which essentially decouples a building\u2019s superstructure from its substructure using large rubber rollers; and energy dissipaters, which are types of shock absorbers that dissipate vibrations\u201d.<\/p>\n

It was in the context of this new technology that de la Llera\u2019s team was awarded a CLP$400 million grant from the Fondo de Fomento al Desarrollo Cient\u00edfico y Tecnol\u00f3gico (Scientific and Technological Development Support Fund), or Fondef, in 1996. This capital was invested in research work and to establish a new test laboratory, and after an initial period of two years, SIRVE was formally established. Between 2003 and 2010, the company \u201cgrew gradually, with one or two projects a year, and later transformed into what is has become today: an entity with a turnover of around CLP$4.5 billion\u201d. He explains that the success achieved was originally \u201cfounded on the efforts of two academics and a team of extraordinary students who, after 15 years, are still here making things happen, and with whom we keep on reinventing the company: a company with innovation at the core of its DNA\u201d.<\/p>\n

Since 2009, SIRVE has been backed by the Fondo Copec-Universidad Cat\u00f3lica (Copec-Universidad Cat\u00f3lica Fund) which comprises the Chilean petroleum company and the university and which now owns a stake in the firm. Its seismic technology work began at the Universidad Cat\u00f3lica\u2019s Campus Cl\u00ednico building at San Carlos de Apoquindo, Santiago and was followed by projects at the Antofagasta, F\u00e9lix Bulnes and Dr Exequiel Gonz\u00e1lez Cort\u00e9s hospitals, as well as the GNL Mejillones regasification plant and the Centro de Innovaci\u00f3n UC Anacleto Angelini innovation center, also part of Universidad Cat\u00f3lica.<\/p>\n

At present, and in addition to the firm\u2019s emblematic participation in a cultural heritage project to restore the Bas\u00edlica del Salvador in Santiago, the largest current initiative being undertaken by the company is its work on the Los Libertadores border crossing facility. Both these projects align with SIRVE\u2019s commitment to support the public sector. This approach is also reflected by its interest in promoting the protection of State hospitals against earthquakes through a number of projects that are currently being negotiated with the Ministerio de Salud (Ministry of Health).<\/p>\n

More generally, de la Llera affirms that \u201cwe are not only interested in ensuring the essential things in terms of minimizing risks to people, but also in making sure that the buildings in question operate efficiently and with continuity\u201d. And despite the company\u2019s commitment to the public sector, he recognizes that private projects are playing an increasingly significant role in the SIRVE portfolio.<\/p>\n

The keys to going international<\/strong><\/p>\n

One of the major objectives of SIRVE is to secure the internationalization of the company. In this regard, its experience gained in the United States has been fundamental. Particularly important in this sense was the firm\u2019s participation in 2012 in a project in California that was directed by the University of San Diego and the Network for Earthquake Engineering Simulation (NEES). The project subjected a model five-story building, equipped as a hospital, to a strong seismic resistance test on a shaking table, which was the most advanced of its kind in the US at this time. The aim of this test was to study the behavior of the building\u2019s structure and its interior facilities, and the crucial point is that the seismic isolation applied in the trial was designed by engineers from SIRVE. Following the successful outcome of these tests, the experience was followed by the team\u2019s participation in a range of different proposals across the United States.<\/p>\n

Another important step at the international level occurred in 2015 with the opening of an office in Peru. It was from this location that SIRVE has executed several projects related to anti-earthquake energy dissipation in buildings such as the Panorama, Orqu\u00eddeas, Barlovento and Atlantik Ocean Towers.<\/p>\n

To date, the company\u2019s most ambitious project outside Chile concerns a control system to deal with vibrations produced by wind flow on the tallest building in Auckland, New Zealand: a country in which SIRVE is working with local entities as well as Chinese capital, according to de la Llera.<\/p>\n

In order to take full advantage of the opportunities beyond Chile\u2019s borders, the major challenges for SIRVE are to now strengthen its commercial dimension and secure new capital. \u201cWe are in the process of searching for capital to take the next big leap forward, and this must be accompanied with new investment. This company is perfectly capable of turning over US$50 million or US$100 million\u201d, he remarks.<\/p>\n

Original dice \u201cCentro M\u00e9dico de San Carlos de Apoquindo UC\u201d pero encontr\u00e9 este en la p\u00e1gina web de SIRVE: http:\/\/sirve.cl\/archivos\/proyectos\/305<\/a>[:]<\/p>\n","protected":false},"excerpt":{"rendered":"

[:es]Luego de que la empresa SIRVE, creada por dos acad\u00e9micos de la universidad cat\u00f3lica, demostrara la calidad de sus tecnolog\u00edas de protecci\u00f3n s\u00edsmica en chile tras el 27\/F, est\u00e1 consolidando su internacionalizaci\u00f3n, \u00e1mbito en el que han sido claves su participaci\u00f3n en estudios con universidades y entes gubernamentales en EE.UU., la apertura de una oficina […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"template":"","news_tax":[],"user_type":[],"class_list":["post-10243","news","type-news","status-publish","hentry"],"acf":[],"yoast_head":"\n[:es]El salto de la ingenier\u00eda antis\u00edsmica made in Chile[:en]The advances of earthquake engineering \u2018Made in Chile\u2019[:] - AmCham Chile<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/amchamchile.cl\/noticia\/el-salto-de-la-ingenieria-antisismica-made-in-chile\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"[:es]El salto de la ingenier\u00eda antis\u00edsmica made in Chile[:en]The advances of earthquake engineering \u2018Made in Chile\u2019[:] - 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