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Cement Additives for Improved Grinding Efficiency

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Shreesh A Khadilkar outlines that by integrating controlled specialty additives at the manufacturing stage, cement plants can deliver consistent, high-performance concretes tailored to specific environmental and structural challenges.

The water repellent cement (PPC based) was first launched in the Indian market in 2013, The cement was developed by the ACC R&D team, the specialty of the cement was that during hydration the cement sand mortar / concrete the cement particles reacts with water and also repel the permeation of water even at early ages. The cement was developed using alkoxy /alkyl silanol based emulsions with an aqueous / oil based property. Subsequently from 2017/18 many different brands of such cements became available in the different markets of the country. These cements which possess the water repellent properties alike hydrophobic cements but these cements are not actually hydrophobic and do not float on the water. These cements react with the water to fill the pores and capillaries of the cement and reacts with the calcium hydroxide of cement to form a hydrophobic resin within the capillary pores of the concrete, significantly reducing water absorption and permeability.
These studies carried out to explore the potential benefits of the water repellent cement on the mortar and concrete properties by assessing the Water Permeability Tests, which affects the overall durability of concrete. The results demonstrated that the water repellent PPC cement (flyash based) substantially reduced water permeability by up to 70 per cent, compared to normal PPC and water sorptivity by up to 50 per cent in both mortar and concrete cubes due to improved impermeability of the concrete made with water repellent cement and its effect on the hydration mechanism. This water repellence effect achieved without compromising the properties of the cement like compressive strength, setting time, expansion etc. of the mortar and concrete, which remained similar to the normal PPC cement.
Through the use of similar special cement additions (with small tweaking of the additives) we could have a water repellent / permeability resistant PSC (Portland Slag Cement) and PCC (Portland flyash slag composite cements. Thus, this niche property of water repellence makes the resultant concretes more durable.

Biocidal cement
Biocidal cements prevent mold, bacteria, algae, and fungi from growing on or inside the concrete. Types of Biocidal Additives for Cement:

  1. Silver-based biocides – Silver ions disrupt microbial cell membranes, kills bacteria/fungi. Best for: Hospitals, water tanks, sewage systems. Dosage: 0.1 per cent to 0.5 per cent by weight of cement (often pre-dispersed in powder or liquid).
    Pro: Long-lasting, broad-spectrum, non-toxic to humans at low doses. But Expensive, may stain concrete slightly.
  2. Copper-based biocides – Copper ions inhibit enzyme activity in microbes. Best for: Marine structures, cooling towers, wastewater plants – Dosage: 0.2 per cent to 1.0 per cent (depends on environment). Very effective against algae and fungi, durable in wet conditions. However, it can accelerate corrosion of steel reinforcement need to e used with caution.
  3. Zinc-based biocides – Interferes with microbial metabolism. Best for: Interior walls, plaster, stucco – Dosage: 0.5 per cent to 2.0 per cent it is odorless, non-staining, less effective in alkaline environments (cement is highly alkaline pH).
  4. Quaternary ammonium compounds (Quats) – Disrupts cell membranes. Best for: Indoor concrete, flooring, sanitary areas – Dosage: 0.2 per cent to 0.8 per cent, Odorless, colorless, compatible with most admixtures, its use can reduce early strength if overdosed.
  5. Titanium dioxide (TiO2) – Photocatalysts UV light activates TiO2 ? generates reactive oxygen species ? kills microbes + breaks down organic stains., – Best for: Exterior facades, pavements, self-cleaning concrete – Dosage: 1 per cent to –5 per cent (often nano-sized for better dispersion), self-cleaning, eco-friendly, long-term durability, needs UV light to work, less effective indoors.

Photocatalytic cement
Types of photocatalysts used:

  1. Titanium dioxide (TiO2) – Most Common Form: Anatase (best photocatalytic activity), sometimes mixed with rutile for stability, Dosage: 2 per cent to 10 per cent by weight of cement (often 3 per cent to 5 per cent). Highly effective, non-toxic, stable, FDA-approved for food contact. The cement needs UV light (but newer versions work under visible light).
  2. Zinc oxide (ZnO) – Pros: Works under visible light, antibacterial, UV- blocking, Cons: Less stable in high pH (cement is alkaline), can
    leach zinc.
  3. Modified TiO2 (visible-light active) – Doped with metals (Ag, Cu, Fe), works under indoor/ambient light. Great for indoor applications (hospitals, offices).
    The Photocatalytic Cement react in presence of sunlight (UV or visible light) to break down organic and inorganic pollutants in the air and on the surface of cement, thus it results in self-cleaning walls, smog-eating streets, stain-resistant pavements.
    The mechanism of action is as follows:
  4. Sunlight hits TiO2 excites electrons, creates electron-hole pairs.
  5. Holes react with water, produce hydroxyl radicals (OH), super strong oxidisers.
  6. Radicals attack organic dirt, bacteria, NOx, VOCs, soot breaks them down into harmless stuff like CO2, H2O, nitrates
  7. Rain washes away residue ? surface stays clean!
    Where it can be used:
    Applications Benefits
    Façade Panels Self-cleaning, anti-algal and anti-fungal
    Roads and Side walks Reduces NOx pollution, stays white longer
    Tunnels and Bridges Cuts maintenance, improves visibility
    Parking Garages Less cleaning cost, healthier air
    Hospitals and Schools Reduces microbial load, improves IAQ

In a similar manner as above, we could have Cements with niche properties tailored to achieve specific performance in concretes.

Corrosion inhibiting cements
Types of corrosion inhibitors, which could be a part of the cements are:

  1. Calcium nitrite based inhibitors – Dosage: 2 per cent to 4 per cent by weight of cement (often 10–30 L/m3), anodic inhibitor forms a protective oxide film on steel surface, blocks chloride ion attack. Works even in cracked concrete.
  2. Organic compounds like amino alcohol based (e.g., triethanolamine, amino carboxylate) ? Phosphate-based ? Carboxylate based , less toxic than nitrites (some are non-hazardous) can be used in potable water structures for existing structures or low cover the cements would be applied as surface treatment or added to repair mortars the inhibitor component, migrates to steel, forms protective layer. The cements could have multifunctional combo additive, these additives also enhance the concrete performance besides the inhibition effect

ASR resistant cements
In certain regions of the country the aggregates available locally are reactive aggregates. For use of such aggregates, in say concrete road and other infra structural concretes the cements can be used, which would resist ASR reactions in resultant concrete, such cements could be either

  1. Low alkali cement
  2. PPC with class F flyash — 20 per cent to 30 per cent replacement or with ground granulated blast furnace slag (GGBS) — 40 per cent to
    60 per cent replacement , or use of 5 per cent silica fume or 10 per cent to 15 per cent Metakaolin (The SCMs bind the alkalis ad prevent
    ASR reaction)
  3. Cements with lithium nitrate (LiNO3) — 0.5 per cent to 1.5 per cent by weight of cement Lithium ions compete with sodium/potassium ? suppresses formation of expansive gel, proven to stop ASR even in highly reactive system. Doesn’t affect strength or setting time significantly.
    Thus, depending on the additive used we could have shrinkage compensating cements, fragrant cements (cements with fragrance) etc.
    Lastly it could be stated here that having such cements with niche properties would have a consistent performance in concrete as these cements would be manufactured in plants, the active compound would be monitored and controlled effectively thus, the performance concrete would be ensured.

This is concluding part of the series.

About the author:
Shreesh Khadilkar, Consultant & Advisor, Former Director Quality & Product Development, ACC, a seasoned consultant and advisor, brings over
37 years of experience in cement manufacturing, having held leadership roles in R&D and product development at ACC Ltd. With deep expertise in innovative cement concepts, he is dedicated to sharing his knowledge and improving the performance of cement plants globally.

Concrete

Cement Prices to Stay Flat in Q2 FY27 as Costs Squeeze Margins

HDFC Securities warns monsoon slowdown and higher fuel costs

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HDFC Securities has said the cement industry is unlikely to register a sequential increase in prices in Q2 FY27 as monsoon-related demand moderation coincides with rising fuel and packaging costs that will squeeze margins. The brokerage observed that price gains remained modest, with increases of two to three per cent quarter-on-quarter across regions, and noted subdued offtake in May with improvement in June as a delayed monsoon supported construction activity. The brokerage added that modest pricing gains so far have been insufficient to offset the input cost escalation.

The report stated that input cost pressures intensified in Q1 FY27 owing to the West Asia conflict, which pushed up coal and pet coke prices and is expected to keep fuel costs elevated, with a likely peak in Q2 FY27. It assessed that total variable costs, including packing, could rise by around Rs 150 per t quarter-on-quarter and that lower offtake and seasonal operating deleverage could further raise operating expenditure by about Rs 50 per t quarter-on-quarter.

Overall, cement prices were estimated to remain flat in Q2 FY27 as monsoon-led demand weakness offsets limited upside in realisation, and rising fuel costs alongside seasonal deleverage were expected to compress industry margins by over Rs 100 per t quarter-on-quarter to below Rs 880 per t. The brokerage indicated that the combined impact of energy inflation and higher packing expenditure would be the principal drivers of margin contraction in the near term. HDFC Securities projected a recovery in margins in H2 FY27 should the West Asia turmoil subside and energy and packing costs cool off.

The brokerage expressed optimism on long-term demand fundamentals and said improving realisation together with an anticipated cost cool-off should support a margin rebound from H2 FY27 onward, underpinning favourable industry prospects over the medium term. Its outlook rests on monsoon normalisation and a decline in imported fuel prices in the second half of the fiscal year.

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Concrete

Dalmia Bharat Begins Rs 31 Bn Green Cement Unit in Kadapa

New Andhra Pradesh plant to add 9.6 MTPA cement capacity by FY28

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Dalmia Bharat Limited recently laid the foundation stone for its second manufacturing unit at Kadapa in Andhra Pradesh. The company will invest Rs 31 billion in developing the next-generation integrated cement manufacturing facility.
The foundation-laying ceremony was attended by Nara Lokesh, Andhra Pradesh Minister for Information Technology, Electronics and Communications, Real-Time Governance and Human Resources Development, along with Puneet Dalmia, Managing Director and Chief Executive Officer, Dalmia Bharat, senior government officials and company representatives.
Scheduled to be commissioned by the third quarter of FY28, the Kadapa unit will become Dalmia Bharat’s largest integrated manufacturing facility in southern India. It will have a clinker production capacity of 6.1 million tonnes per annum and a cement manufacturing capacity of 9.6 million tonnes per annum.
The facility is designed to produce what the company describes as one of the world’s greenest cements. It is also expected to generate approximately 1,000 direct and indirect employment opportunities while supporting local MSMEs, transporters, contractors and service providers.
Lokesh said the investment reflected Dalmia Bharat’s confidence in Andhra Pradesh and aligned with the state’s objective of promoting sustainable industrialisation, job creation and technology-led economic growth.
Puneet Dalmia said the project represented the company’s long-term vision of developing low-carbon cement manufacturing assets. He added that the facility would establish new benchmarks in operational efficiency and sustainability while supporting India’s infrastructure and environmental goals.
Dalmia Bharat will also expand its regional community development programmes in education, healthcare, skill development and welfare through its DIKSHa and Gram Parivartan initiatives.
The company currently has an installed cement manufacturing capacity of 54.7 million tonnes across 19 manufacturing units in 12 states. It is also the first cement company globally to commit to the RE100, EP100 and EV100 initiatives.

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Concrete

Nuvoco Inaugurates Limla Cement Plant in Surat

Acquisition boosts Western India cement capacity

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Nuvoco Vistas Corporation Limited inaugurated the Limla Cement Plant in Surat, Gujarat, marking a key milestone in its acquisition and revival of Vadraj Cement Limited.

The company completed the acquisition of Vadraj, which had been undergoing a corporate insolvency resolution process, by discharging a consideration of Rs 18 billion (bn) in June 2025. Vadraj’s asset base includes a clinker unit at Kutch and a grinding unit at Limla, along with high quality captive limestone reserves and a captive jetty at Kutch that enhance logistics efficiency.

Since taking over the assets, Nuvoco has undertaken revival, refurbishment and expansion across both sites, culminating in the opening of the Limla facility. The grinding unit at Limla achieved project completion ahead of schedule with the commissioning of two million tonnes per annum (mn t per annum) grinding capacity, further expanding the company’s scale and market reach.

Upon full operationalisation of the Vadraj assets, nearly 40 per cent of Nuvoco’s total cement capacity will be accounted for by plants in the North and West regions, supporting improved access to high growth markets. The plant is expected to support a phased volume ramp up in Gujarat and to serve adjoining markets in western Maharashtra while releasing northern capacities for other markets.

It will produce a complete portfolio of cement products including Ordinary Portland Cement, Portland Slag Cement, Portland Pozzolana Cement and Portland Composite Cement, and will offer the Duraguard range including the premium Duraguard Microfibre. The transaction is set to create synergies with Nuvoco’s existing manufacturing facilities at Nimbol and Chittorgarh, strengthening logistics optimisation and market access across key regions.

Nuvoco reported total income of Rs 113.62 billion (bn) in FY 2025-26 and stated it is on track to consolidate total cement capacity to 35 million tonnes per annum (mn t per annum) by FY2028. The company operates across cement, ready-mix concrete and modern building materials segments and highlighted a pan-India ready-mix presence alongside contributions to major infrastructure projects. Corporate communications contact details were provided by the company.

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