Grupo de contenido: Implementing codes and improving their enforcement
Steel types S280GD and S320GD have been implemented for Eurocode 3 (including the National Application Documents or general document adaptations for Bulgaria, France, Italy and Portugal) and EAE (Spain).
Indian Standard. Plain and reinforced concrete code of practice (Fourth Revision). This code was already implemented in CYPECAD. Now, with the 2014.b version, the time required for the design of the concrete columns has been optimised.
The tool, Strut3D, was implemented in the 2013.e version, and allows users to check (in CYPECAD and Metal 3D – using the Pile Caps module) pile caps using a general analysis method that analyses the D regions of the reinforced concrete using a strut and tie model. This tool was only available for use with the EHE-08 (Spain) code. Now, with […]
НАГРУЗКИ И ВОЗДЕЙСТВИЯ. СНиП 2.01.07-85*. 11 Воздействия ветра Loads and effects. SNIP 2.01.07-85*.11 The effects of the wind Implemented in CYPECAD.
When analysing with CYPECAD, if users select the French BAEL 91 (R-99) code and combine it with any of the indicated seismic loads, the program will take into account the reinforcement ductility criteria and the capacity design criteria for seismic design of the selected seismic code. These criteria are justified in the detailed Ultimate Limit State reports generated by […]
South African National Standard. The structural use of steel. Part 2: Cold-formed steel structures. Implemented in CYPECAD, Metal 3D and Portal frame generator for basic cold-formed sections.
Règles techniques de conception et de calcul de ouvrages et constructions en béton armé suivant la method des états limites. This code was implemented in CYPE programs in the 2009.1.a version. In the 2013.b version, a group of codes were included which allowed for the Advanced column editor of CYPECAD to be used (which, besides permitting users […]
In previous versions, when users selected the Indian concrete code, IS 456: 2000, the punching shear and shear checks in footings were calculated in accordance with Eurocode 2. As of the 2013.p version, the checks are carried out in accordance with the Indian code, IS 456: 2000 (Indian Standard. Plain and reinforced concrete code of practice […]
Norma Ecuatoriana de la Construcción. Capítulo 2.- Peligro sísmico y requisitos de diseño. This seismic load was already implemented in CYPECAD and Metal 3D as of previous versions. As of the 2013.n version, if users select the NEC – 11 seismic code of Ecuador and combine it with the ACI 318M-08 (USA) concrete code, CYPECAD’s Advanced beam editor and column editor may also be used. Additionally, by […]
On the 13th April 2013, several article modifications of the Reglamento de Instalaciones Térmicas en los Edificios (RITE) were published in number 89 (I. DISPOSICIONES GENERALES, MINISTRO DE LA PRESIDENCIA), Royal Decree 238/2013, of the 5th April, of the Spanish Official State Bulletin (BOE). As of the 2013.m version, CYPECAD MEP incorporates the modifications that are indicated in […]
Norma Técnica E.030 Diseño Sismorresistente. This concrete code was already implemented in CYPECAD and Metal 3D. Now, in the 2013.m version, if users select the NTE E.030 code with its corresponding concrete design code (NTE E.060: 2009), CYPECAD’s Advanced beam editor and column editor may also be used. Additionally, by using this code combination, CYPECAD applies the ductility reinforcement criteria and capacity design criteria of the NTE E.060: […]
Norma Boliviana de Diseño Sísmico (2006). Título A. Análisis y diseño sismo resistente. This concrete code was already implemented in CYPECAD and Metal 3D. Now, in the 2013.m version, if users select the Bolivian NBDS 2006 seismic code with the ACI 318M-08 concrete code, CYPECAD’s Advanced beam editor and column editor may also be used. Additionally, by using this code combination, CYPECAD applies the ductility reinforcement criteria of […]
