ISSN: 0032-5910

Journal Home

Journal Guideline

Powder Technology Q1 Unclaimed

Elsevier Netherlands

Unfortunately this journal has not been claimed yet. For this reason, some information may be unavailable.

Powder Technology is a journal indexed in SJR in Chemical Engineering (miscellaneous) with an H index of 162. It has an SJR impact factor of 1,005 and it has a best quartile of Q1. It is published in English. It has an SJR impact factor of 1,005.

Powder Technology focuses its scope in these topics and keywords: magnetic, drying, mixtures, directly, dioxide, discharge, discrete, dry, effect, element, ...

Type: Journal

Type of Copyright:

Languages: English

Open Access Policy:

Type of publications:

Publication frecuency: -

Categories: Chemical Engineering (miscellaneous) (Q1)

Price

- €

Inmediate OA

NPD

Embargoed OA

- €

Non OA

Metrics

1,005

SJR Impact factor

162

H Index

1009

Total Docs (Last Year)

3113

Total Docs (3 years)

50308

Total Refs

17741

Total Cites (3 years)

3097

Citable Docs (3 years)

5.62

Cites/Doc (2 years)

49.86

Ref/Doc

Comments

No comments ... Be the first to comment!

Publication speed *

Review quality *

Edition and editorial team *

Institutional email or ORCID *

* The email or ORCID field is only to validate the authenticity of the comment, the identity will not be public. .

Other journals with similar parameters

Nature Chemistry Q1
Chem Q1
Progress in Energy and Combustion Science Q1
ACS Central Science Q1
Advanced Science Q1

Compare this journals

Aims and Scope

Best articles by citations

Influence of mechanical activation and fluorine ion on forsterite formation

Some behaviors of shallow vibrated beds across a wide range in particle size and their implications for powder classification

Concentration non-uniformity in simple shear flow of cohesive powders

Supercritical antisolvent precipitation of salbutamol microparticles

Discrete wavelets auto-correlation of axial turbulence velocity in spiral single phase flow

The microstructure and hardness of molybdenum powders consolidated by plasma pressure compaction

Influence of computational domain boundaries on internal structure in low-porosity sphere packings

The role of science in particle technology

Visualization of flow structures inside a circulating fluidized bed by means of laser sheet and image processing

Dynamic behaviors of heterogeneous flow structure in gas-solid fluidization

Synthesis and characterization of Al40Mg25Zn35 amorphous powder by rapid solidification

On the solution for the batch grinding equation from Das et al. (1995)

SHOW MORE ARTICLES

3-D simulation of magnetic particles' behaviour during compaction in a magnetic field

Hydrothermal reactions under mechanochemical action

Parametric dependence of particle breakage mechanisms

A packing algorithm for particles of arbitrary shapes

An investigation into the effect of particle size on straight-pipe pressure gradients in lean-phase conveying

An investigation into the effect of product type when scaling for diameter in vertical pipelines

Preparation and characterization of sol-gel derived mesoporous titania spheroids

Metal powder granulation in a plasma-spouted/fluidized bed

Particulate character, inertial effects and diffusion effects in concentrated suspensions

A preliminary study into the local solids fluxes in a downer reactor

Characterisation of fragments produced by the comminution of metals especially considering the fragment shape

An instrumented cylinder for simultaneous measurements of instantaneous local heat transfer coefficients and hydrodynamics in high-temperature fluidized beds