Industrial performance

Rheonis supports you in solving production problems, studying and determining ways to optimize the existing process, possible evolution of your production tool and reliability of industrialization approaches:

  • Diagnosis and expertise on site influencing factors and causes of problems
  • R&D study of experimental simulation and determination ofoperating optimum
  • Modelization product/process/application and development of a Space Design
  • Develop non-normative approaches to ensure quality
  • Technical support in sourcing and evaluation of improvement options
  • Pre-size thermomechanical parameters new facilities
  • Operational recommendations process settings, industrial tests and various optimizations
  • Technical support testing or data analysis
spiqi

La original SPIQI method from Rheonis makes it possible to establish an understanding of the phenomena involved in your product/process/application by limiting the consumption of resources and to extract ways of optimization.

Complementary to statistical-based continuous improvement and quality methods (Six-Sigma, Quality by Design, etc.), SPIQI allows you to build a specific understanding of the parameters of interest and the modeling of their correlation for the control of your process.

Our specificity : combining industrial analysis approaches, applied research and special engineering for a real "physics of industrial processes" and operational solutions adapted to the real constraints of your activity.

To know more :

Go beyond empiricism

Faced with the complexities of behavior of powders, fibers, gels, emulsions, resins, pendant lights, raincoats, etc., empiricism is the most common industrial method. Effective in solving specific problems, although often greedy in terms of time, resources and material, empiricism finds its limits when it comes to explaining recurring variability, understanding the factors of influence and…

Take control of the behavior of your complex products

Behaviors and transformations in process and application of complex products are most often dynamic responses depending as much on thermomechanical stresses as on formulation factors. Instrumental laboratory or quality control techniques often struggle to discriminate and anticipate the impact of formulations on their processability and performance. Empirical approaches…