A process prepares a prepolymer containing a urethane group and a curable silicon-functional group, or a prepolymer of formula (IV),

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The prepolymer may be cured to a cross-linked polymer by ambient moisture and is therefore suitable for use as a component in a one-component sealant or adhesive composition.

An acrylated and/or methacrylated urethane oligomer obtained by reaction of a specific polyamine with a cyclic carbonate compound carrying m cyclic carbonate groups, giving an intermediate product carrying m formed urethane groups which carry residual reactive amine —NH— groups, and subsequently an addition reaction of each of the residual reactive amine groups of the intermediate product with an acrylate group of a compound carrying, in addition to the acrylate group, p additional acrylate and/or methacrylate groups, with each residual reactive amine —NH— group of the intermediate product being thus converted into a carbon-nitrogen bond carrying the acrylate and/or methacrylate groups, and thus production of the urethane oligomer, with the urethane oligomer carrying m urethane groups and m hydroxyl groups and having a functionality in acrylates and/or methacrylates ranging from m*p(n−1) to m*p(2n−2).

An acrylated and/or methacrylated urethane oligomer obtained by reaction of a specific polyamine with a cyclic carbonate compound carrying m cyclic carbonate groups, giving an intermediate product carrying m formed urethane groups which carry residual reactive amine —NH— groups, and subsequently an addition reaction of each of the residual reactive amine groups of the intermediate product with an acrylate group of a compound carrying, in addition to the acrylate group, p additional acrylate and/or methacrylate groups, with each residual reactive amine —NH— group of the intermediate product being thus converted into a carbon-nitrogen bond carrying the acrylate and/or methacrylate groups, and thus production of the urethane oligomer, with the urethane oligomer carrying m urethane groups and m hydroxyl groups and having a functionality in acrylates and/or methacrylates ranging from m*p(n−1) to m*p(2n−2).

The present invention relates to a hybrid polyurethane-polyhydroxyurethane (PU-PHU) composition obtained by a process comprising the following steps: (i) Reacting at least one isocyanate containing compound, in stoichiometric excess, with at least one isocyanate-reactive compound, resulting in the formation of at least one prepolymer, (ii) Reacting said at least one prepolymer with at least one cyclic carbonate functional group containing compound, leading to the formation of a cyclic carbonate-terminated prepolymer, (iii) Ring-opening reaction of said cyclic carbonate-terminated prepolymer with at least one amine functional group containing compound resulting in said hybrid PU-PHU composition,
characterised in that said ring-opening reaction step is carried out above room temperature, preferably above 20° C., more preferably above 25° C.

A method for producing an alkoxysilane polymer via a carbamate, thiocarbonate or carbonate-terminated prepolymer (IIIa) or (IIIb) includes reaction of a polymer backbone of formula (I) terminated with at least two amino, mercapto or hydroxyl groups and with a chloroformate of formula (IIa) or a pyrocarbonate of formula (Ilb) (I) (IIa) (IIb) (IIIa) (IIIb), wherein R.sup.1 and R.sup.3 represent a linear or branched, saturated or unsaturated alkyl or alkenyl group with 1 to 10 carbon atoms or a mono- or polycyclic aliphatic or aromatic ring system with 5 to 18 carbon atoms in the ring system, which is optionally substituted by one or more groups R.sup.2, X is oxygen or sulphur, n is 0 for a linear or branched, saturated or unsaturated alkyl or alkenyl group and is 0.1 or 2 for a mono- or polycyclic aliphatic or aromatic ring system, and A represents a polymer backbone.

A process for preparing coatings or sealed materials using a coating composition or a sealant that contains a first component and a second component. The first component includes a compound A) with at least one five-membered cyclic monothiocarbonate group. The second component includes a compound B) with at least one amino group. The at least one amino group can be a primary or secondary amino group or blocked primary or secondary amino group. Compounds A) or B) may additionally have at least one polymerizable, ethylenically unsaturated group. The coating composition or sealant may further include a compound C) with at least one polymerizable, ethylenically unsaturated group.

A process for preparing coatings or sealed materials using a coating composition or a sealant that contains a first component and a second component. The first component includes a compound A) with at least one five-membered cyclic monothiocarbonate group. The second component includes a compound B) with at least one amino group. The at least one amino group can be a primary or secondary amino group or blocked primary or secondary amino group. Compounds A) or B) may additionally have at least one polymerizable, ethylenically unsaturated group. The coating composition or sealant may further include a compound C) with at least one polymerizable, ethylenically unsaturated group.

Provided is a synthesis method comprising a first step of producing a carbonate compound from carbon monoxide and an alcohol-based compound at an anode of a first electrochemical cell comprising a cathode and the anode, and a second step of synthesizing a first product by a dealcoholization reaction of the carbonate compound, wherein an alcohol-based compound eliminated in the second step is recycled in the first step.

A lignin-based block copolymer molecular-level combined polyether is based on lignosulfonate, a molecular chain of lignosulfonate is cut and embedded by using solvation effect of polyether polyol to form a molecular-level combined polyether that is polymerized and formed by aromatic polymer fragments of lignosulfonate and aliphatic polymer fragments of polyether polyol. The present invention uses a type of molecular mixing technology with a special structure to re-edit and splice the lignin molecular fragments of the hard segment on the microscopic level with the polymer polyols of the soft segment on the macroscopic level, to obtain a molecular-level combined polyether by a method of block copolymerization. Such a molecular-level combined polyether has dual characteristics of strong support and softness, which perfectly solves the problem how to balance strong support and softness of flexible polyurethane foam materials.

A lignin-based block copolymer molecular-level combined polyether is based on lignosulfonate, a molecular chain of lignosulfonate is cut and embedded by using solvation effect of polyether polyol to form a molecular-level combined polyether that is polymerized and formed by aromatic polymer fragments of lignosulfonate and aliphatic polymer fragments of polyether polyol. The present invention uses a type of molecular mixing technology with a special structure to re-edit and splice the lignin molecular fragments of the hard segment on the microscopic level with the polymer polyols of the soft segment on the macroscopic level, to obtain a molecular-level combined polyether by a method of block copolymerization. Such a molecular-level combined polyether has dual characteristics of strong support and softness, which perfectly solves the problem how to balance strong support and softness of flexible polyurethane foam materials.