Atomistic modelling of novel fire retardants

Research output: Book/ReportReport

Original languageEnglish
PublisherVTT Technical Research Centre of Finland
Publication statusPublished - 2016
MoE publication typeD4 Published development or research report or study

Publication series

SeriesVTT Research Report
VolumeVTT-R-04781-16

Keywords

  • fire retardant
  • aluminium hydroxide
  • high-density polyethylene
  • molecular dynamics
  • ReaxF

Cite this

Paajanen, A., & Vaari, J. (2016). Atomistic modelling of novel fire retardants. VTT Technical Research Centre of Finland. VTT Research Report, Vol.. VTT-R-04781-16
Paajanen, Antti ; Vaari, Jukka. / Atomistic modelling of novel fire retardants. VTT Technical Research Centre of Finland, 2016. (VTT Research Report, Vol. VTT-R-04781-16).
@book{9beabde04c1049ff88c48b1380d3ed76,
title = "Atomistic modelling of novel fire retardants",
keywords = "fire retardant, aluminium hydroxide, high-density polyethylene, molecular dynamics, ReaxF",
author = "Antti Paajanen and Jukka Vaari",
note = "SDA: MIP: Safe and Sustainable",
year = "2016",
language = "English",
series = "VTT Research Report",
publisher = "VTT Technical Research Centre of Finland",
address = "Finland",

}

Paajanen, A & Vaari, J 2016, Atomistic modelling of novel fire retardants. VTT Research Report, vol. VTT-R-04781-16, VTT Technical Research Centre of Finland.

Atomistic modelling of novel fire retardants. / Paajanen, Antti; Vaari, Jukka.

VTT Technical Research Centre of Finland, 2016. (VTT Research Report, Vol. VTT-R-04781-16).

Research output: Book/ReportReport

TY - BOOK

T1 - Atomistic modelling of novel fire retardants

AU - Paajanen, Antti

AU - Vaari, Jukka

N1 - SDA: MIP: Safe and Sustainable

PY - 2016

Y1 - 2016

KW - fire retardant

KW - aluminium hydroxide

KW - high-density polyethylene

KW - molecular dynamics

KW - ReaxF

M3 - Report

T3 - VTT Research Report

BT - Atomistic modelling of novel fire retardants

PB - VTT Technical Research Centre of Finland

ER -

Paajanen A, Vaari J. Atomistic modelling of novel fire retardants. VTT Technical Research Centre of Finland, 2016. (VTT Research Report, Vol. VTT-R-04781-16).