Polyethylene modified asphalt compositions

Abstract

A polymer modified bituminous composition for roofing applications that comprises polyethylene as the primary modifier.

Description

TECHNICAL FIELD OF THE INVENTION [0001] This invention relates to bituminous roofing. More particularly, the present invention relates to modified asphalt composition for use in roofing materials. BACKGROUND OF THE INVENTION [0002] It is well known to use asphalt compositions to manufacture waterproofing materials, such as roofing membranes, shingles or underlayments. The purpose of such materials is to offer protection against the elements. Because of its good weatherability and hydrophobic nature, asphalt has been used in waterproofing applications for several centuries. [0003] Roofing materials must possess key mechanical and chemical characteristics, such as pliability, resistance to cracking at low temperatures, high puncture resistance, good strength and elongation (to withstand stresses and potential building movements), resistance to flow at elevated temperatures, and thermal and dimensional stability, etc. Most importantly, a roofing material must have minimal susceptibilit...

AI Technical Summary

Benefits of technology

[0013] The present invention provides novel asphalt compositions for use in roofing applications that utilize polyethylene (virgin or recycled) as the primary or sole asphalt modifier. It has been discovered that by using a blend of low and high density polyethylene and / or a plasticiser, ethylene modified asphalt formulations can be obtained which have surprisingly good characteristics for modified asphalt roofing membrane applications. The formulations of the present invention surprisingly have improved mechanical, chemical and rheological properties compared to asphalts modified with conventionally used polymers such as APP, APAO, or SBS. They are also characterized by enhanced processability during manufacture as well as ease of application during field installation. In particular the formulations of the present invention possess high temperature resistance, good long-term weatherability characteristics, and excellent durability. Furthermore the formulations of the present invention can be formulated so as to be very “hard”, and thus ideally suited for application in warm weather conditions, or very “flexible”, and thus, ideally suited for application in cold weather conditions. The formulations are also advantageous because they offer significant cost savings in comparison to the typical APP, APAO or SBS modified asphalt. The ethylene is not only cheaper than these other modifiers, but also surprisingly less can be used in the formulation of the invention. This leads to enhanced cost savings. In the preferred embodiments, 10% or less of polymer can be used, whereas in membranes modified with conventional polymeric modifiers, the polymer content is typically 15% or more.

Problems solved by technology

For example, asphalt undergoes stiffening at low temperatures, which makes it fragile in cold weather temperatures even to light impacts.

However, blends containing SBS as the only modifier also have disadvantages.

For example, they tend to be soft and thus difficult to install during warm weather.

They have poor resistance to ultraviolet light from the sun, and thus need to be protected with a coating or mineral granules on the upper surface.

Furthermore, SBS's unique molecular structure makes processing SBS polymer difficult, and consequently manufacturing an SBS-asphalt compound requires special mixing equipment.

Asphalt modified with only APP, however, does not have enough hardness, and is susceptible to deformation under minimal mechanical force, especially at high temperatures.

The cost of polymeric modifiers is the highest of all ingredients in the asphalt formulation and therefore has a significant effect on the total cost of the formulation.

Attempts to use polyethylene as a modifier, however, have been limited to using low density polyethylene as the primary modifier or using it in conjunction with other modifiers such as APP, IPP and ethylene propylene copolymer in the formulation.

Despite these attempts and the need to find lower cost materials, to the best of the applicants' knowledge, no modified asphalt roofing membranes composed of asphalt modified with polyethylene as the primary modifier have yet been marketed.