| RS ISO 52032-1: 2022 | Energy performance of buildings — Energy
requirements and efficiencies of heating, cooling
and domestic hot water (DHW) distribution
systems —
Part 1: Calculation procedures | Civil engineering | ADOPTED IEEE STANDARDS | RWF51,000 | View Details | |
| RS ISO 24365: 2022 | Radiators and convectors — Methods and
rating for determining the heat output | Civil engineering | ADOPTED ISO STANDARDS | RWF96,000 | View Details | |
| RS ISO 23045: 2008 | Building environment design — Guidelines
to assess energy efficiency of new
buildings | Civil engineering | ADOPTED ISO STANDARDS | RWF30,000 | View Details | |
| RS ISO 16817: 2017 | Building environment design — Indoor
environment — Design process for the
visual environment | Civil engineering | ADOPTED ISO STANDARDS | RWF43,500 | View Details | |
| RS 111-1: 2021 | Structural performance — Part 1: Serviceability for structures | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF15,000 | View Details | |
| RS 292: 2023 | Aggregates for surface treatment of roads
— Specification | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF12,000 | View Details | |
| RS EAS 1017-4: 2021 | Sanitary appliances (vitreous china) —
Specification —
Part 4: Squatting pan | Civil engineering | EAST AFRICAN STANDARDS | RWF9,000 | View Details | |
| RS EAS 1017-3: 2021 | Sanitary appliances (vitreous china) —
Specification —
Part 3: Washbasin | Civil engineering | EAST AFRICAN STANDARDS | RWF16,500 | View Details | |
| RS 397-5: 2023 | Use of glass in building —
Part 5: Safety related to human impact | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF13,500 | View Details | |
| RS 397-4: 2023 | Use of glass in building —
Part 4: Fire and loading | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF96,000 | View Details | |
| RS 545: 2023 | Fibre concrete and micro concrete roofing
tiles — Requirements | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF18,000 | View Details | |
| RS 547: 2023 | Fire classification of construction
products and building elements —
Classification using data from reaction to
fire tests | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF82,500 | View Details | |
| RS 540: 2023 | Reaction to fire tests for building products
— Building products excluding floorings
exposed to the thermal attack by a single
burning item | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF180,000 | View Details | |
| RS 549: 2023 | Natural stone test methods —
Determination of water absorption at
atmospheric pressure | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF6,000 | View Details | |
| RS 543: 2023 | Masonry units test methods —
Determination of water absorption of
aggregate concrete, autoclaved aerated
concrete, manufactured stone and natural
stone masonry units due to capillary
action and the initial rate of water
absorption of clay masonry un | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF7,500 | View Details | |
| RS 542: 2023 | Determination of slip resistance of
pedestrian surfaces — Methods of
evaluation | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF81,000 | View Details | |
| RS 541: 2023 | Natural stone test methods —
Determination of resistance to ageing by
thermal shock | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF13,500 | View Details | |
| RS 539: 2023 | Masonry units test methods —
Determination of flexural strength | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF33 | View Details | |
| RS 533: 2023 | Natural stone test methods —
Determination of flexural strength under
concentrated load | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF16,500 | View Details | |
| RS 537: 2023 | Masonry units test methods —
Determination of compressive strength | Civil engineering | STANDARDS OF RWANDA ORIGIN | RWF36,000 | View Details | |
