Molecor, worldwide leader company in the development and commercialization of TOM® Oriented PVC (PVC-O) pipes for pressured water, in its committed to the development and continuous implementation of technical tools to support its collaborators; provides the market with new improvements for the innovative design tool: TOM® Mechanical Calculation Program. The tool becomes a functional, simple and interactive application for the user.
It is important to perform the mechanical calculation of the buried pipes to assess the mechanical stresses that are transmitted to the pipe by the action of different external loads, so the mechanical calculation of TOM® pipes should be done before designing an installation.
The program determines the validity of the installation based on the efforts and stresses that the pipe will support as well as its safety coefficients at breakage and crushing.
Molecor and Molecular Orientation, your partner for success
Molecor is a leader company specialized in the development of the latest technology applying Molecular Orientation to pipeline solutions with astonishing mechanical properties. Founded in 2006 by highly skilled engineers in this field, with a proven experience in the plastic pipe division, this revolutionary developed process provides reliable and user friendly systems that widen the pipe global business possibilities.
Our workforce is a highly qualified team. More than half of them are engineers specialized in a range of technological areas, being our most valuable asset and the driving force behind our continuous research and development.
Molecor activity is developed around two main axes: the development and manufacture of increasingly efficient systems and the manufacture of PVC-O pipes.
The capability of simultaneous engineering with our customers allows us to accelerate the “time to market” for our new product design and developments. As a result of this effort, our products have surpassed the most demanding implemented tests and are able to provide a longer working life under the most extreme conditions.